Contents | Page 2 of 12 | UBIResearchNet

Bar chart illustrating the significant reduction in chip and package size of Smartkem's MiP4 technology compared to POB and COB methods.

Smartkem unveils next-generation Mini-LED backlight technology at IDW 2025… Announces ‘MicroLED-in-Package (MiP4)’ structure featuring proprietary RDL technology

December 17, 2025/in Display, Focus on /by UBIResearchNet

UK-based advanced materials company Smartkem announced its next-generation Mini-LED backlight technology at International Display Workshops 2025, held at the Hiroshima International Conference Center in Japan from December 3 to 5. Co-developed with National Yang Ming Chiao Tung University (NYCU) in Taiwan and Coretronic, this technology is named ‘MiP4 (MicroLED-in-Package 4-in-series).’ It is characterized by solving the challenges of micro LED processes and maximizing price competitiveness through the convergence of advanced semiconductor and display process technologies.

While Mini-LED backlight technology currently leads the premium TV and tablet markets by providing excellent contrast ratios and color reproduction, it faces structural limitations. Mini LED chips like the existing ‘0820’ model (0.2mm x 0.5mm) cannot be miniaturized further, limiting cost reduction potential. Furthermore, while backlight driver circuits typically use 12V as the standard voltage, individual LED chips operate at around 3V, necessitating separate step-down converters. This was a major cause of power loss and complicated driver board design.

The MiP4 technology presented by the Smartchem research team at this year’s Hiroshima IDW ‘25 solved these issues with a novel approach called ‘series connection packaging’. The team placed four ultra-small micro-LED chips, each under 85µm (micrometers), onto a glass substrate and electrically connected them in series to form a single package (0.6mm x 0.6mm).

Comparison graph of Chip size (black) and Package size (blue) for POB, COB, and MiP4 technologies (Source: Smartkem)

Comparison showing significantly reduced chip and package sizes of MiP4 compared to conventional POB and COB methods (Source: Smartkem)

The most notable aspects of this research result are material efficiency and luminance performance. Smartchem announced that in testing a backlight module composed of 400 zones, MiP4 technology reduced the amount of GaN (gallium nitride) epitaxial material used by a remarkable 84% compared to the existing COB (Chip-on-Board) method. While the conventional COB method uses 73.6mm² of GaN area per backlight unit, MiP4 uses only 11.56mm², dramatically lowering material costs.

The MiP4 manufacturing process integrates advanced semiconductor and display process technologies. The research team adopted a method where the GaN LED structure grown on a sapphire substrate is separated via a ‘Chemical Lift-off’ process and then transferred onto a glass substrate. On the glass substrate, a redistribution layer (RDL) composed of a polymer insulating film and metal wiring was formed, electrically connecting four micro LEDs in series.

(a) Schematic of RDL routing for uLED series integration on glass substrate (Source: Smartkem)

(a) Schematic illustrating the RDL routing process for integrating micro-LEDs in series on a glass substrate (Source: Smartkem)

This ‘Chip-first’ and RDL-based integration process not only ensures 12V compatibility at the chip level but also provides a package form immediately applicable to SMT (Surface Mount Technology) processes, enhancing manufacturing reliability.

Material usage decreased while performance actually improved. The MiP4-based backlight module achieved a maximum luminance of 34,047 nits with an optical film applied, demonstrating significantly higher luminous efficiency compared to commercial COB products that recorded 25,619 nits.

Smartchem and the research team anticipate that once commercialized, this technology will become a powerful weapon capable of competing with OLED in the small-to-medium high-definition display market, including notebooks, tablets, and automotive displays.

Smartkem MiP4 details: (a) MiP4-based 400-zone on FR-4 PCB, (b) laminated optical film stack with 12V driving, (c) Performance comparison table between COB and MiP4 (Source: Smartkem)

(a) MiP4-based 400-zone backlight unit, (b) demonstration with laminated optical films under 12V driving, and (c) table comparing brightness and efficiency between COTS (COB) and MiP4 (Source: Smartkem)

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

XR Industry Trends and OLEDoS Display Technology & Industry Analysis Report

※ This article is produced by UBIResearchNet.
Unauthorized reproduction or citation without source attribution is prohibited.
When quoting, please clearly indicate the source (UBIResearchNet) and provide a link.

LG Display's advanced automotive OLED technology representing the smart cockpit trends at CES 2026.

Smart Cockpit Competition Accelerates… Automotive Displays to be Showcased at CES 2026

December 16, 2025/in Display, Focus on /by UBIResearchNet

At CES 2026, it became clear that automotive display technology has emerged as a core competitive factor amid the broader transition of vehicles from mere means of transportation to intelligent living spaces. As the shift toward autonomous driving and Software Defined Vehicles (SDVs) accelerates, the amount of information and content required inside vehicles continues to increase. Accordingly, displays are no longer simple screens but have evolved into central technologies that define interior architecture and user experience. At this year’s exhibition, LG Display, Hyundai Mobis, AUO, and Corning each presented distinct technological approaches that together outlined the future direction of the smart cockpit.

LG Display showcased its “Automotive Dual View OLED” and “Automotive UDC (Under Display Camera)-IR OLED” at CES 2026, earning a CES Innovation Award in the In-Vehicle Entertainment category. Dual View OLED enables different content to be viewed simultaneously by the driver and the front passenger on a single panel, providing driving-related information exclusively to the driver while delivering entertainment content to the passenger. This technology is seen as an effective solution to information interference in increasingly large automotive displays, while significantly enhancing cockpit design flexibility. The UDC-IR OLED integrates an infrared camera beneath the display to support driver monitoring systems (DMS) without compromising screen continuity or image quality. Together, OLED’s inherent advantages in contrast and color reproduction, combined with advanced sensor integration, demonstrate a clear direction toward strengthening both in-vehicle entertainment and safety functions.

LG Display’s CES 2026 Innovation Award-winning automotive Dual View OLED and UDC-IR OLED technology (Source: LG Display)

Hyundai Mobis took center stage at CES 2026 after winning a CES Innovation Award for its holographic windshield display (HWD), integrated into its cockpit integration solution “M.BiCS 7.0.” Developed in collaboration with German optics company ZEISS, the HWD is the world’s first technology to apply a holographic film to the entire windshield, enabling the front glass to function as a large-scale transparent display. While conventional HUD systems face limitations in size, thermal management, and design due to their reflective optical architectures, holographic displays leverage diffractive optics to precisely control light paths, allowing the system to be realized with a compact optical engine of approximately 1.2 liters. In addition, the holographic film maintains a high transparency of over 95%, minimizing visual obstruction while driving, and supports customized eyebox designs that enable different information to be presented independently to the driver and front passenger. This technology is regarded as an effective solution for managing the rapidly increasing information density of the autonomous driving era, while simultaneously maximizing cockpit integration and design coherence.

Demonstration of Hyundai Mobis’s CES 2026 Innovation Award-winning Holographic Windshield Display (HWD) (Source: Hyundai Mobis)

At CES 2026, AUO officially launched its new subsidiary, AUO Mobility Solutions Corporation (AMSC), declaring its transition beyond displays toward becoming a system-integrated smart cockpit solution provider. AMSC was established through the integration of AUO’s mobility solutions business with the climate control systems and HMI design expertise of Germany-based BHTC GmbH. At the exhibition, AMSC unveiled next-generation smart cockpit solutions that integrate immersive display experiences, intelligent sensing, and scalable computing platforms. By delivering visual elements, computing, and connectivity within a unified architecture, the company aims to realize cockpit environments optimized for software-defined vehicles, a strategy widely interpreted as an effort to strengthen both rapid development cycles and mass-production readiness demanded by OEMs.

In the materials segment, Corning drew attention with its advanced anti-reflective surface treatment technology for automotive displays. As large-format in-vehicle displays continue to expand toward pillar-to-pillar configurations, sunlight-induced reflections have emerged as a major challenge affecting visibility. Corning’s solution dramatically reduces surface reflections while enabling deep black performance, simultaneously enhancing image quality and driving safety. The technology offers high compatibility with a wide range of panel types, including OLED and Mini-LED, and is therefore regarded as a key enabler supporting the broader adoption of next-generation large automotive displays.

The technologies unveiled at CES 2026 collectively demonstrate that automotive displays are evolving beyond individual components into core platforms that integrate space, user experience, and safety. From OLED-driven image quality advancements and holographic displays that redefine interior space, to system-integrated smart cockpit strategies and the material innovations that underpin them, each company is pursuing a distinct approach. Yet all are converging toward a shared objective: delivering new user experiences tailored to the era of intelligent mobility.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Automotive Display Technology and Industry Trends Analysis Report

※ This article is produced by UBIResearchNet.
Unauthorized reproduction or citation without source attribution is prohibited.
When quoting, please clearly indicate the source (UBIResearchNet) and provide a link.

BOE 14-inch OLED laptop prototype displayed to showcase B16 line capabilities.

BOE Completes Internal Lighting for Chengdu B16 8.6-Generation OLED Line… Accelerating Its Entry Into Large-Scale IT OLED Mass Production

December 12, 2025/in Display, Focus on /by UBIResearchNet

BOE 240Hz LTPO OLED Laptop Prototype based on 8.6 Gen Line (Source: BOE)

BOE’s 240Hz LTPO OLED Prototype (Source: BOE)

BOE has reportedly completed internal lighting for its 8.6-generation (2290×2620 mm) IT OLED production line, known as B16, which is currently under construction in Chengdu, Sichuan Province. The project, launched in March 2024 with a total investment of 63 billion RMB (approximately 12.4 trillion KRW), is progressing rapidly and is designed to support a monthly capacity of 32,000 glass substrates. Although BOE has not officially announced the lighting milestone, sources indicate that a formal public announcement is planned for December 2025.

The prototype used for the lighting test is a 14-inch OLED notebook panel intended for Acer, marking a strategic reference win aligned with the global trend toward wider OLED adoption in laptops. BOE had also planned to develop smartphone panels for Oppo using the B16 line, but the development schedule has reportedly been delayed.

The B16 line will expand further through a Phase 2 investment, and Sunic Systems has been selected as the supplier for the key deposition equipment. The first tool is expected to be delivered in the fourth quarter of 2026, positioning BOE to strengthen its competitiveness in IT OLED mass production as the additional capacity comes online.

With IT device OLED demand rising rapidly, BOE’s B16 project is regarded as a symbolic investment accelerating China’s entry into the high-resolution, large-area OLED market. The establishment of an 8.6-generation line in particular is expected to serve as a crucial inflection point for Chinese panel makers seeking to narrow the technology gap with Korean competitors in the notebook and tablet OLED segments.

Junho Kim, Analyst at UBI Research (alertriot@ubiresearch.com)

China Trends Report Inquiry

※ This article is produced by UBIResearchNet.
Unauthorized reproduction or citation without source attribution is prohibited.
When quoting, please clearly indicate the source (UBIResearchNet) and provide a link.

Display of Visionox's 4th generation pTSF OLED technology on smartphones at SID 2025.

Tsinghua-Visionox Officially Announces Mass Production of 4th-Generation OLED ‘pTSF’… “Beyond Catching Up with Korea, Achieving Technological Independence”

December 11, 2025/in Display, Focus on /by UBIResearchNet

China’s display industry has set a milestone beyond leading global production volume, advancing toward self-reliance in core material technologies. Tsinghua University and Visionox officially announced the successful mass production of Phosphor-assisted Thermally Activated Delayed Fluorescence Sensitized Fluorescence (pTSF) technology—a fourth-generation OLED light-emitting technology—at a jointly hosted technology forum held at Tsinghua University in Beijing on the 7th. They also unveiled achievements utilizing this technology. This announcement is considered a significant event, to announce that next-generation material technology, previously confined to the realm of academic possibility, has been successfully introduced into actual mass production lines and entered the commercialization stage.

The Phosphor-assisted Thermally Activated Delayed Fluorescence Sensitized Fluorescence (pTSF) technology developed by the joint research team is a fourth-generation solution that resolves the ‘Impossible Triangle’ challenge faced by conventional OLEDs—the difficult task of simultaneously achieving high efficiency, long lifetime, and high color purity. This technology operates on the principle of maximizing efficiency and lifespan by establishing a unique triple energy transfer system composed of a TADF host, a phosphorescent sensitizer, and a fluorescent emitter. It captures internal energy without loss and rapidly transfers it to the emitter.

Particularly noteworthy at this forum was the reconfirmed mass production performance data for the Green Phosphor-assisted Thermally Activated Delayed Fluorescence Sensitized Fluorescence (pTSF) device. This device garnered significant academic attention at ‘SID 2025’, the world’s largest display conference, held last May.

Visionox’s low-power ‘Product A’ (left) and ultra-high image quality ‘Product B’ (right) pTSF OLED panels demonstrated at SID 2025 (Source: SID 2025)

Visionox has disclosed the performance of two panel types (Product A, Product B) manufactured on its G6 mass production line. The low-power specialized model ‘Product A’ reduces power consumption by 12% compared to existing phosphorescent OLED products and improves lifetime (LT95) by over 15%. Furthermore, Product B’, an ultra-high-definition specialized model, achieved a color reproduction rate exceeding 99.5% for both DCI-P3 and AdobeRGB color gamuts, demonstrating significant progress in image quality. This was achieved by applying the research team’s independently developed Exciplex host and optimizing the device structure to enhance energy transfer efficiency, while also reducing the usage of expensive dopant materials by approximately 10%.

The newly unveiled technology is expected to be brought to Honor’s Magic series or Nubia’s latest models. Honor and Nubia are longstanding core partners of Visionox, with a history of being the first to adopt Visionox’s new technologies (such as high refresh rates and UDC) in their flagship lineups. Therefore, it is highly likely they have also secured priority supply for this 4th-generation technology.

Building on the success of mass-producing these green phosphors, Tsinghua University and Visionox have outlined a roadmap to expand the application of Phosphor-assisted Thermally Activated Delayed Fluorescence Sensitized Fluorescence (pTSF) technology into the red and blue phosphor domains. The research team is currently focusing on securing the stability of red MR emitters and blue auxiliary phosphors, which are considered major technical challenges. Through this, they plan to achieve complete independence in material technology across the entire OLED spectrum. The Chinese side views this achievement as a significant turning point for the Chinese display industry, marking its transition from a follower to a technology leader.

Visionox’s high-efficiency pTSF OLED device displayed at SID 2025 (Source: Visionox)

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

2025 OLED Emitting Materials Report Sample

OLED Emitting Material Market Tracker Sample

※ This article is produced by UBIResearchNet.
Unauthorized reproduction or citation without source attribution is prohibited.
When quoting, please clearly indicate the source (UBIResearchNet) and provide a link.

Ford 1.1m integrated screen showcasing the future of automotive cockpit design with unified cluster and CID.

Ford Unveils 1.1m Integrated Screen… Cluster-CID Integrated Display to Become Popular in Global Vehicles

December 9, 2025/in Display, Focus on /by UBIResearchNet

Minimalism in automotive displays has gained even more traction amidst the shift from traditional physical button-centric control systems to a “digital-based single interface.” According to UBI Research’s “2025 Automotive Display Technology and Industry Trend Analysis Report,” OEMs are actively adopting a structure that integrates the cluster and CID (Center Infotainment Display) under a single cover glass. This reduces visual density within the vehicle interior, avoids complex segmentation of the driver’s field of vision, and allows for flexible UI reconfiguration in response to software updates. This integrated screen not only simplifies the interior horizontally, but also allows key vehicle information to be managed in a single visual layer, making it an interface optimized for electrification and software-defined vehicle (SDV) environments.

The Ford Evos and Mondeo exemplify this trend with a 1.1m-wide integrated screen. This configuration integrates a 12.3-inch digital cluster and a 27-inch 4K CID under a single, ultra-wide cover glass, functioning as a single display. This panel, constructed with a super-flat, wide structure rather than a curved one, enhances the continuity of information transmission and minimizes visual disruption, maximizing the benefits of a software-centric UX. Furthermore, its simplified internal structure significantly improves space efficiency and design stability.

Ford’s 1.1m integrated cluster and CID display (Source: Ford)

In the European premium market, the BMW i4 is a prime example of an integrated screen. BMW’s curved display, which has been widely adopted by the i4, iX, 3 Series LCI, and i7, integrates a 12.3-inch digital cluster and a 14.9-inch central display (CID) under a single piece of curved glass. While the internal panels are two-piece, they appear as a single, continuous digital interface from the user’s perspective, and the curvature achieves a driver-centric UI layout. This configuration minimizes physical buttons while ensuring operability and visibility, and is considered a prime example of BMW’s digital UX direction.

BMW Curved Display with integrated cluster and CID (Source: BMW)

Among Korean brands, the Genesis GV80 facelift has adopted a full-fledged integrated screen strategy. The GV80 integrates the instrument cluster and CID under a single 27-inch OLED cover glass, completely breaking away from the traditional standalone instrument panel and central display structure. The OLED panel’s unique contrast ratio and color reproducibility maximize UI readability, and combined with the horizontal, minimalist interior design, it sets a new standard for premium SUV UX.

Genesis GV80 27-inch OLED integrated display (Source: Genesis)

While few models currently feature an integrated screen (a structure combining the cluster and CID under a single sheet of cover glass) on the market, its adoption is rapidly accelerating, with major global brands, including Ford, BMW, and Genesis, strategically adopting it. The integrated screen is not simply a design innovation; it serves as a core platform for integrating vehicle functions into a single digital layer and integrating them with a software-centric operating system. As the boundaries between the instrument panel and infotainment system blur and the scope of OTA-based UI reconfiguration expands, the integration of clusters and CIDs is likely to expand beyond luxury vehicles to mid-size electric vehicle lineups.

UBI Research Executive Vice President Changwook Han emphasized, “The integrated screen is a key piece of hardware for realizing the digital UX of the electrification and SDV era. By integrating the cluster and CID into a single visual layer, the entire vehicle interface can be redefined based on software. Its application will gradually expand to the mid-size and mass-market segments.” Ultimately, the integrated screen is positioned as a guiding light for a transformation of the entire vehicle interface architecture, transcending technology and design.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Automotive Display Technology and Industry Trends Analysis Report

※ This article is produced by UBIResearchNet.
Unauthorized reproduction or citation without source attribution is prohibited.
When quoting, please clearly indicate the source (UBIResearchNet) and provide a link.

Bar chart showing the quarterly growth of OLED smartphone panel shipments in 2025, highlighting Q4 peak.

OLED Smartphone Panel Shipments to Reach 900 Million Units in 2025…Q4 Production Drives Annual Growth

December 8, 2025/in Display, Focus on /by UBIResearchNet

Quarterly OLED Shipments Forecast for Smartphones by Manufacturer in 2025 (Source: UBI Research)

UBI Research forecast trend for quarterly OLED smartphone panel shipments and manufacturer share in 2025 (Source: UBI Research)

According to UBI Research’s quarterly publication, the OLED Display Market Tracker, OLED panel shipments for smartphones and foldable phones are expected to reach approximately 900 million units in 2025. By shipment share, Chinese panel makers are projected to account for about 48.8% of the annual total, nearly matching the level of Korean manufacturers. While shipment volumes between the two countries are similar, Korean companies maintain a revenue advantage due to their higher proportion of premium-tier orders for flagship models such as Apple’s iPhone and Samsung’s Galaxy.

In particular, Korean panel makers saw a significant surge in smartphone and foldable panel shipments in the fourth quarter, marking their strongest performance of the year. Panel supply expanded sharply from the third quarter with the launch of new Apple products, and shipments peaked as Samsung Electronics began full-scale production of Galaxy S26 series panels.

Samsung Display continued its solid growth into the fourth quarter, driven by increasing demand for panels for the iPhone 17 series and Samsung’s Galaxy S25 FE. With mass production for both the iPhone lineup and Galaxy S26 series in full swing, Samsung Display is expected to post its highest annual shipment volume to date. LG Display also achieved a strong rebound in the third quarter with shipments of roughly 20 million units, representing a sharp quarter-over-quarter increase, and its Q4 shipments are forecast to rise by an additional 20%.

Chinese panel makers showed quarterly fluctuations depending on demand conditions but maintained stable supply across major smartphone brands. BOE expanded its customer base by diversifying its supply portfolio from entry-level to upper-mid-range smartphone models. TCL CSOT and Visionox continued to grow shipments to both the domestic Chinese market and global brands, while Tianma focused on enhancing technological competitiveness by increasing the share of high value-added products such as LTPO.

In terms of set makers, Apple secured the largest volume of OLED panels, followed by Samsung Electronics, Xiaomi, Vivo, and Huawei. Executive Vice President Changwook Han of UBI Research commented, “As the industry enters the second-half peak season, Korean display manufacturers are showing clear improvements in both shipments and revenue. In particular, Samsung Display is expected to ship around 150 million panels in the fourth quarter driven by increased demand for iPhone panels.” He added, “Chinese panel makers are also maintaining stable momentum by adjusting their supply strategies in line with shifting market demand.”

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

Quarterly Small OLED Display Market Tracker Sample

Quarterly Medium & Large OLED Display Market Tracker Sample

※ This article is produced by UBIResearchNet.
Unauthorized reproduction or citation without source attribution is prohibited.
When quoting, please clearly indicate the source (UBIResearchNet) and provide a link.

Samsung Display Wins “Korea Technology Award” for QD-OLED Innovation

December 4, 2025/in Display, Focus on /by UBIResearchNet

Recognized with Minister’s Commendation for developing high-resolution monitor and high-brightness TV QD-OLED panels

□ Leading innovation in large-scale panels with the world’s first 160PPI QD-OLED for monitors and 4,000-nit QD-OLED for TVs.

□ Winning products showcased at the “2025 Korea Tech Festival” at COEX (Dec. 3–5).

□ Choi Yeol, Executive Vice President, receives Presidential Commendation for contributions to industrial technology promotion.

Samsung Display announced that it has received the Minister’s Commendation at the “Korea Technology Award” for its development of the world’s first 160PPI (Pixels Per Inch) QD-OLED for high-resolution monitors and 4,000-nit QD-OLED for high-brightness TVs.

The company is currently showcasing its award-winning QD-OLED products, along with its foldable display lineup, at the “2025 Korea Tech Festival” held at COEX in Seoul from December 3rd to 5th. Established in 1992, the “Korea Technology Award” is considered the country’s most prestigious technology honor. It is awarded by the Ministry of Trade, Industry and Energy (MOTIE) and the Korea Institute for Industrial Technology Planning and Evaluation (KIET) after evaluating leading domestic companies on technological value, development capabilities, and commercialization potential.

Earlier this year, Samsung Display launched its 160PPI QD-OLED for monitors and 4,000-nit QD-OLED for TVs, spearheading technological innovation in the large-sized display sector. The 160PPI monitor panel features an ultra-high-density pixel arrangement, packing 160 pixels into every inch. Higher PPI allows for a greater amount of data to be displayed within the same resolution, resulting in significantly sharper and more detailed imagery.

The 4,000-nit TV panel boasts extreme brightness and clarity that were previously difficult to achieve, delivering an exceptional viewing experience even in very bright environments. Optimized for High Dynamic Range (HDR) content, this product offers delicate expression in dark scenes while providing powerful contrast in bright scenes for lifelike picture quality.

Meanwhile, Choi Yeol, Executive Vice President and Head of Small & Medium Display Development at Samsung Display, was selected as a person of merit for the promotion of industrial technology at the festival, receiving the Presidential Commendation. EVP Choi was recognized for his pivotal role in the development of foldable displays.

A bar chart illustrating the forecast growth of XR devices equipped with OLEDoS displays between 2025 and 2031, highlighting AR dominance.

XR Headset Shipments Set to Top 10 Million in 2025… AR Expansion Drives OLEDoS Growth

December 4, 2025/in Display, Focus on /by UBIResearchNet

Forecast chart of XR device shipments with OLEDoS from 2025 to 2031 (Source: UBI Research)

UBI Research forecast trend for XR device (MR/VR and AR) shipments equipped with OLEDoS from 2025 to 2031 (Source: UBI Research)

The rapid expansion of the AI and XR device market has intensified competition in next-generation microdisplay technologies. According to a new report published by UBI Research titled ” XR Industry Trends and OLEDoS Display Technology & Industry Analysis” XR headset shipments are expected to exceed 10 million units by 2025. Notably, AR smart glasses alone saw over a 50% year-on-year increase in the first half of this year, clearly shifting the market’s center of gravity.

The AR market is diversifying, expanding its application range from AI glasses focused on information display to business-use AR glasses and content-viewing devices. In the consumer AI glasses market, primarily focused on information display, monochrome displays with resolutions around 640 x 480 (VGA) and microdisplays under 0.3 inches are commonly used, with LCoS and micro LED competing for position. Workplace AR glasses require resolutions of 1280×720 (HD) or higher, while content-viewing AR demands resolutions of 1920×1080 (FHD) or higher. As industry’s expansion focus shifts from VR to AR, the demand for simultaneously meeting ultra-high resolution, high brightness, and lightweight requirements has grown significantly. Consequently, OLEDoS is evaluated as the fastest-growing display technology within the XR ecosystem.

Global manufacturers are also accelerating OLEDoS development and supply chain expansion. Samsung Display joined the OLEDoS market, previously led by Sony, BOE, and Seeya, by supplying OLEDoS panels for Samsung Electronics’ Galaxy XR, released in October 2025, following Sony. In China, companies like BOE, Seeya, and SIDTEK have commenced mass production of 12-inch OLEDoS panels, marking the most notable shift in the supply chain. Chinese firms are strengthening their in-house capabilities in core processes such as high-resolution patterning, Si-backplane design, and tandem OLED structures, suggesting their global supply share will rapidly expand in the future.

UBI Research analyst Changho Noh predicted, “The OLEDoS market is projected to grow from approximately $285 million in 2025 to $840 million by 2031, driven by supply chain expansion and diverse demand bases.”

He further analyzed, “Shipments of OLEDoS-equipped XR devices are expected to increase from 1.2 million units in 2025 to 8.86 million units by 2031, with AR devices anticipated to account for approximately 90% of total OLEDoS shipments by 2031.”

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

XR Industry Trends and OLEDoS Display Technology & Industry Analysis Report

※ This article is produced by UBIResearchNet.
Unauthorized reproduction or citation without source attribution is prohibited.
When quoting, please clearly indicate the source (UBIResearchNet) and provide a link.

2026 Outlook (1) Premium TV: OLED TV Cost Improvement and Mini-LED Expansion Strategy

December 3, 2025/in Display, Focus on /by UBIResearchNet

In the 2025 TV market, the proliferation of large-size RGB Mini-LED products has significantly broadened technological options. Manufacturers, led by TCL and Hisense, have actively expanded their product lineup to 85- to 115-inch sizes, increasing affordability in the ultra-large market. In particular, leveraging the efficiency of large-area panel production using 10.5th-generation LCD production lines, they have introduced products at a variety of price points. This shift has diversified the competitive landscape in the ultra-large market, particularly those 80 inches and above.

According to a table analyzing the selling prices of OLED and RGB Mini-LED TVs by UBI Research, factors other than price still play a significant role in consumer selection in the 60- to 70-inch segment. While RGB Mini-LED TVs have become more accessible, with prices dropping to around $1,000, OLED TVs are also selling at similar price points, thanks to sales promotions and a mature supply chain, maintaining a balanced technological landscape. In particular, OLED’s unique picture quality characteristics, such as black expression, viewing angle, and response time, continue to be a key factor in the premium 65- to 77-inch market.

2025 OLED TV and RGB Mini-LED TV Price Comparison by Size (Source: UBI Research)

A key variable in the 2026 market outlook is structural improvements in OLED TV panel manufacturing costs. With the end of depreciation of LG Display’s Guangzhou 8.5th-generation OLED line in the second half of 2025, fixed costs will be reduced. Furthermore, process stabilization and material cost reductions are expected to streamline the overall cost structure. This will allow manufacturers to pursue a broader range of pricing strategies and is highly likely to strengthen OLED’s price competitiveness, particularly in the premium 65- to 77-inch market.

Meanwhile, the Mini-LED camp is expected to adopt various strategies to address this trend. Major manufacturers are seeking to maintain competitiveness through improvements in backlight structures, refinement of operating algorithms, and product portfolio restructuring. Based on production structures that leverage the 10.5th-generation LCD line, they are likely to expand their product line options in ultra-large and mid- to large-sized products. Analysts suggest that RGB Mini-LED TVs will continue to offer advantages in terms of production efficiency, particularly in the ultra-large market (80 inches and above). UBI Research Vice President Han Chang-wook predicted, “In 2026, the premium TV market will become more structured, with each technology’s strengths differing across segments, driven by a complex mix of consumer demands, pricing conditions, and manufacturers’ product strategies.” He continued, “OLED is expected to strengthen its competitiveness in key premium segments based on cost improvements, while Mini-LED will expand its response strategy based on production efficiency in ultra-large areas. This will strengthen the multi-layered market structure, where the two technologies each demonstrate competitiveness in different areas.”

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

Quarterly Medium & Large OLED Display Market Tracker Sample

※ This article is produced by UBIResearchNet.
Unauthorized reproduction or citation without source attribution is prohibited.
When quoting, please clearly indicate the source (UBIResearchNet) and provide a link.

Meizu StarV Air2 Micro-LED AR glasses illustrating the trend of lightweight and AI-integrated eyewear.

Micro-LED AR glasses market is set for significant expansion… ‘Lightweight design, outdoor visibility, and AI integration’ emerge as core competitive factors

December 2, 2025/in Display, Focus on /by UBIResearchNet

Meizu StarV Air2 Lightweight Micro-LED AR Glasses (Source: MEIZUWORLD)

Meizu StarV Air2, a mass-market AR glass featuring lightweight design and AI capabilities (Source: MEIZUWORLD)

A comprehensive review of major AR glasses released between 2023 and 2025 confirms that the global XR market is rapidly restructuring around ultra-lightweight AR glasses based on Micro-LED technology. Notably, lightweight AR glasses combining Micro-LED and waveguide technology have been successively launched, primarily in China. This trend clearly shifts the AR market’s focus from high-priced, high-performance MR headsets toward information-centric AR glasses suitable for everyday use.

Market Expansion: Rapid Commercialization Centered on Chinese OEMs

2024 marks the turning point where Micro-LED AR glasses began entering the actual consumer market. Chinese manufacturers including Orion AR from Southeast University, INMO, Dreame, and Thunderbird simultaneously launched numerous Micro-LED AR glasses around April 2024. Subsequently, in August and September, mass-market models like the Sihe G1 and Meizu StarV Air2 appeared at reasonable price points. Global brands such as Vuzix and Rokid also expanded their industrial and consumer models, joining the market expansion trend. This continuous product launch demonstrates that Micro-LED is no longer primarily a research and development technology, but has entered the market application phase as a practical technology.

Technical Direction: Monochrome Micro-LED + Waveguide Becoming Mainstream

The core technology combination in currently commercialized products is monochrome Micro-LED and waveguide. This structure offers significant advantages: high luminous efficiency, low power consumption, thin and lightweight optical structures, and excellent outdoor visibility.

Major models like the Meizu StarV Air2, INMO GO 2, and Vuzix Z100 all adopt monochrome Micro‑LED, making monochrome-based solutions the likely mainstream for consumer AR glasses in the near term.

On the other hand, prototypes like the ThunderBird X3 Pro and Meta Orion AR utilize full-color Micro‑LED. However, due to process complexity, yield issues, and cost concerns, they remain in the research and prototyping phase. While big tech companies are strategically developing this technology, indicating its high medium-to-long-term importance, short-term commercialization remains limited.

Price Structure: The US$100–500 range forms the mass-market segment.

Based on the Chinese market, the primary price range for Micro-LED AR glasses is established at US$100–500. This price range is advantageous for positioning AR glasses as an extension device for smartphones and smartwatches, indicating the potential for Micro-LED-based AR glasses to expand into a market of 10 million units.

Entry-level (Sihe G1, INMO GO 2)
Mid-range (Meizu StarV Air2)
Global Mid-Range Model (Vuzix Z100)

Player Landscape: A Tripartite Ecosystem of Local Chinese, Global, Niche, and Big Tech Players

Currently, the Micro-LED AR glasses ecosystem is led by three groups. The product ecosystem formed by Chinese OEMs intersects with the platform strategies of global companies, creating a multi-layered growth structure in the AR market across technology, price, and ecosystem.

1) Chinese Local OEMs (Meizu, INMO, Dreame, Sihe, Thunderbird, etc.)

→ Rapid productization, price competitiveness, platform expansion strategy based on JBD engine

→ Pioneering the mass market centered on domestic Chinese demand

2) Global Niche/Industrial Companies (Vuzix, Rokid, etc.)

Bridge role between industrial AR demand and lightweight consumer AR

→ Increasing Micro-LED adoption in B2B-centric markets

3) Big Tech Platforms (Google, Meta)

→ Building OS-SDK (Software Development Kit)-Cloud-based AR platforms

→ Technology development at the exhibition product stage to preempt next-generation interfaces based on Micro-LED

Market Outlook: Toward an ‘All-day AR’ Era with Ultra-Lightweight, Outdoor Visibility Foundations

Analyzing product specifications and launch trends, Micro-LED AR glasses are likely to evolve in the following directions:

Expansion from monochrome to full-color AR
Ultra-lightweight designs in the 40-50g range will become the de facto market baseline.
Accelerated standardization of engine-optics modules and design modularization
Intensified competition in the AR OS-AI-app ecosystem centered around Big Tech

The 44g Meizu StarV Air2, in particular, prominently features a practical price point, lightweight design, outdoor visibility, and wearable AI capabilities, positioning it as a likely benchmark model for mass-market AR glasses. The StarV Air2 has launched sales not only domestically in China but also on select global online channels, with a known price point around US$300-400. This represents a competitive price range within the existing, high-price-focused AR market and is expected to accelerate the adoption of ultra-lightweight AR devices.

UBI Research analyzed that “maximizing lightness and practicality instead of implementing full-color, high-resolution MR is the key differentiator,” adding that “this demonstrates the potential for information-assistance-focused AR glasses to enter the mass market.”

Joohan Kim, Senior Analyst at UBI Research (joohanus@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

※ This article is produced by UBIResearchNet.
Unauthorized reproduction or citation without source attribution is prohibited.
When quoting, please clearly indicate the source (UBIResearchNet) and provide a link.

eatured image for TCL CSOT’s T8 Gen-8.6 inkjet-printed OLED line indicating equipment ordering and 2027 mass-production target (Source: TCL CSOT, UBI Research)

CSOT T8 8.6G IJP OLED Project Nears Key Equipment Orders…Despite Scheduling Variables, Mass-Production Target Remains Intact

December 1, 2025/in Display, Focus on /by UBIResearchNet

TCL CSOT inkjet-printed OLED monitor panel on display (Source: TCL CSOT)

Demonstration of TCL CSOT’s IJP OLED monitor panel (Source: TCL CSOT)

TCL CSOT’s T8 project, the world’s first Gen 8.6 inkjet printing (IJP) OLED mass-production line, has officially entered the equipment-ordering phase. Following a series of IJP OLED and oxide TFT roadmap disclosures at DTIC 2025 that demonstrated the company’s technical readiness, the project is now showing visible progress on the investment timeline as well.

According to industry sources, orders for core T8 equipment, including inkjet printing systems and deposition tools, are scheduled to begin in December 2024. Inkjet printing, the central platform of the T8 process, determines panel quality, yield, and material utilization; the tool alone is said to account for more than half of the total investment. CSOT is currently engaged in detailed price and specification negotiations with major tool suppliers, while aiming to complete all remaining equipment orders by February 2025. However, with key tool prices trending higher than initially expected, the pace of early investment execution may be adjusted.

CSOT plans to bring in the first batch of equipment for the T8 line in October 2026, though there is a high likelihood that actual delivery could slip toward the end of 2026. Several tool categories still require mass-production-level validation, and negotiations with the inkjet equipment supplier may take longer than anticipated. Even so, the company is maintaining its official target of beginning mass production in the fourth quarter of 2027. Internally, CSOT is said to be preparing mitigation measures to ensure that a 2–3 month delay in tool delivery does not materially impact the overall project schedule.

The strategic significance of the T8 project extends well beyond the addition of a new production line. Inkjet-printed OLED structurally overcomes the process constraints of the conventional FMM (Fine Metal Mask) approach for large-size panels, offering advantages such as material utilization above 90 percent, elimination of large-mask issues, and strong scalability toward high resolution. T8 is designed as a multi-product platform spanning 14–17-inch notebooks, 27–32-inch monitors, and 65–77-inch TVs. Once mass production stabilizes, the T8 line is expected to reshape price-competition dynamics across the IT, monitor, and TV markets.

Junho Kim, Analyst at UBI Research (alertriot@ubiresearch.com)

China Trends Report Inquiry

※ This article is produced by UBIResearchNet.
Unauthorized reproduction or citation without source attribution is prohibited.
When quoting, please clearly indicate the source (UBIResearchNet) and provide a link.

Featured graphic of 2024–2025 OLED shipment share by application highlighting smartphone dominance and China’s rising supply share (Source: UBI Research)

Dual Axes of the 2025 OLED Market: Korea’s Premium Focus and China’s Expansion in Shipments

November 28, 2025/in Display, Focus on /by UBIResearchNet

The OLED market in 2024 and 2025 witnessed marked changes in both the demand structure by application and the supply structure by panel manufacturer. The smartphone-centric demand base became more robust, while major Korean and Chinese panel manufacturers, leveraging their distinct strengths, expanded their market contributions, leading to continued diversification in the OLED industry.

By application, smartphones dominated the OLED market in 2024, accounting for 82% of total shipments, reaching 833.8 million units. Watches accounted for 119.7 million units (12%), while other product groups, including tablets, laptops, monitors, and TVs, remained small markets. This structure continued in 2025, with smartphone shipments increasing to 920.7 million units, representing 84% of the total. Watches remained relatively stable at 113.4 million units, and the share of other product groups remained largely unchanged.

Pie charts of OLED shipments by application for 2024 and 2025 showing larger smartphone share (Source: UBI Research)

OLED shipment share by application, 2024 (left) and 2025 (right) (Source: UBI Research)

In 2024, the roles of Korea and China in OLED panel supply were clearly divided. Samsung Display maintained its position as the largest supplier with 410 million units (41%), while LG Display recorded 100 million units (11%). In the same year, Chinese panel makers continued their quantitative expansion, accounting for 48% of the total, with a combined shipment of 490 million units: BOE with 138 million units, Visionox with 114 million units, Tianma with 102 million units, CSOT with 83 million units, and EverDisplay with 43 million units.

This structure was further strengthened in 2025. Chinese panel makers, including BOE, Tianma, Visionox, CSOT, and EverDisplay, combined to ship 555 million units annually, accounting for over 51% of the global supply, emerging as a key player in the global supply chain. In the same year, Samsung Display maintained its technology-focused responsiveness, with shipments reaching 411 million units (37%), while LG Display reached 128 million units (12%).

The differences in sales strategies between the two countries were also clear. In 2024, Samsung Display solidified its premium-focused structure with $25.6 billion (57%), while LG Display also achieved $7 billion. Conversely, Chinese companies such as BOE, Visionox, and Tianma demonstrated a trend of expanding sales based on mass production. In 2025, LG Display grew significantly to $11.6 billion, and BOE’s shipments also expanded to $7.1 billion, further separating the two countries’ technology and production strategies.

In summary, the OLED market in 2025 saw a strengthened smartphone-centric demand structure, while Chinese companies accounted for over half of panel shipments, demonstrating a clear shift in regional composition. Korean companies maintained a sales structure centered on high-value-added products, while Chinese companies continued to expand their market presence based on increased shipments. UBI Research Executive Vice President Changwook Han said, “The 2025 OLED market is a period in which the supply structure by region and company is expanding simultaneously, with each company broadening its market response based on its product portfolio and technological capabilities.”

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

Quarterly Small OLED Display Market Tracker Sample

Quarterly Medium & Large OLED Display Market Tracker Sample

※ This article is produced by UBIResearchNet.
Unauthorized reproduction or citation without source attribution is prohibited.
When quoting, please clearly indicate the source (UBIResearchNet) and provide a link.

Composite image of Garmin Fenix 8 Pro Micro-LED smartwatch showing front face and side view for outdoor visibility (Source: Garmin)

When will the commercialization competition of Micro-LED smartwatch products become feasible?

November 27, 2025/in Display, Focus on /by UBIResearchNet

The development of Micro-LED-based smartwatches has continued since 2020 through prototype exhibitions, and their high brightness characteristics led to high expectations for commercialization. Previously, companies like KONKA, AUO, Innolux, and Apple had attempted development or commercialization. However, when Apple halted its own development in early 2024, the difficulties of the Micro-LED manufacturing process and high cost issues came to the fore, suggesting that commercialization of Micro-LED smartwatches would require more time.

Assorted Micro-LED smartwatch prototypes from multiple vendors

However, sports smart wearable brand Garmin launched the world’s first Micro-LED smartwatch, the ‘Fenix 8 Pro’, in September this year. It is currently retailing for approximately 13,000 yuan on Chinese online shopping platforms. Garmin’s September launch sent a significant signal to the market, demonstrating that Micro-LED technology has secured commercial viability in the smartwatch sector. Of course, there are still many areas requiring improvement. Nevertheless, beyond AUO, which is already in mass production, companies like PlayNitride, Innolux, Samsung Display, TCL CSOT, and Tianma are actively entering the market and accelerating efforts to commercialize Micro-LED smartwatches. By late 2023, AUO had already achieved mass production of Micro-LED watch panels. In its subsequent production plans, AUO’s 4.5-generation Micro-LED production line is scheduled to enter mass production this year, with products covering smartwatches and large TVs. At CES 2025, Samsung Display showcased a watch prototype (2.1 inches, 418×540 resolution, 326 ppi) developed over years of Micro-LED technology advancement. Chinese home appliance company KONKA also unveiled its Micro-LED watch, the APHAEA Watch, in 2020. The Chongqing KONKA Optoelectronics Technology Research Institute is enhancing core technologies to reduce manufacturing costs. PlayNitride has positioned smartwatches as a key growth driver this year, exhibiting a 1.39-inch smartwatch panel at Touch Taiwan 2025. This product applies high-efficiency, low-power ‘Tantium’ chip technology to achieve high resolution and 5,000 nits peak brightness, presenting a new solution that simultaneously delivers low power consumption and high image quality for wearable devices. Innolux has also developed 1.1-inch and 1.39-inch Micro-LED displays with integrated touch sensors. Tianma has established a dedicated Micro-LED research institute and is exploring new application areas like smartwatches, in addition to automotive applications.

Garmin Fenix 8 Pro Micro-LED smartwatch (Source: Garmin)

Garmin has pioneered Micro-LED in smartwatches, but who will be the next contender for Micro-LED smartwatches? When will commercialization competition become feasible? Significant hurdles remain. Developed watch panels (326~338 PPI) achieve high brightness levels of 4,000~6,000 nits. However, to compete with existing OLED products, Micro-LED chip and manufacturing costs must be reduced, and power consumption characteristics must be improved. Recent announcements from Micro-LED technology companies clearly outline and are actively pursuing solutions to overcome these cost challenges. The mid-to-long-term strategy for Micro-LED smartwatches is to build integrated technological capabilities combining Micro-LED technology with health monitoring sensors. Long-term, as chip miniaturization technology matures and the advantages of sensor integration are fully realized, Micro-LED is expected to break free from its niche market limitations and expand into the broader wearable product market. UBI Research analyzed that the Micro-LED smartwatch market will fully open starting in 2028.

Namdeog Kim, Senior Analyst at UBI Research(ndkim@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

※ This article is produced by UBIResearchNet.
Unauthorized reproduction or citation without source attribution is prohibited.
When quoting, please clearly indicate the source (UBIResearchNet) and provide a link.

Shoei GT-Air 3 Smart featuring an OLEDoS HUD that projects navigation and speed in the rider’s field of view

Smart Helmet Evolved with OLEDoS Technology: Shoei GT-Air 3 Smart Unveiled

November 26, 2025/in Display, Focus on /by UBIResearchNet

Japanese premium helmet manufacturer Shoei has set a new standard in the smart helmet market by announcing the GT-Air 3 Smart, the world’s first fully integrated augmented reality head-up display (HUD) helmet, developed in collaboration with French augmented reality specialist Airight. The core feature of this new product is its HUD, which utilizes Sony’s OLEDoS microdisplay.

Shoei GT-Air 3 Smart helmet with HUD info projected inside the visor

GT-Air 3 Smart projecting riding data in the rider’s view (Source: SHOEI)

Conventional LCD or projection systems face limitations in size, weight, power consumption, and brightness. Within the confined space of a helmet, delivering clear information without obstructing the rider’s vision required a solution that was ultra-compact, high-resolution, and energy efficient. OLEDoS, built on a silicon substrate with OLED pixels, achieves full-color FHD resolution and 3,000nits’ brightness even in a miniature form factor. This ensures perfect visibility under direct sunlight and allows riders to intuitively access speed, navigation, and alerts without taking their eyes off the road.

HUD information is projected approximately 3 meters ahead, reducing eye focus adjustment and shortening reaction time by 32%. Battery efficiency is improved, enabling over 10 hours of mixed use, while low heat generation enhances the reliability of internal electronics. Above all, OLEDoS miniaturization enables full integration of HUD, audio, and communication modules without significantly increasing helmet weight.

Shoei has combined its AIM (Advanced Integrated Matrix) shell structure, ventilation system, and face shield with EyeLights’ communication technology, including unlimited distance and user intercom, active noise-canceling microphone, and Siri/Google Assistant support.

According to UBI Research’s analysis, this announcement is closely linked to the relevant patents held by Shoei (including US Patent 12,342,893 and EP3888482). These patents protect rights to the optical structure integrating a HUD into the helmet and the screen device. The structure describes forming virtual images within the rider’s field of view using light sources and reflective optical systems. It is designed to allow for various implementations, including OLED and MicroLED, without restricting the display elements to specific technologies. In practice, OLEDoS was chosen as the optimal solution to meet the structural requirements defined in the patents, delivering ultra-compact, high-brightness, and low-power performance.

The GT-Air 3 Smart was unveiled at EICMA 2025 and will be released in summer 2026 at a price of approximately $1,199 in the US. Shoei aims to achieve sales of 3 billion yen and operating profits of several hundred million yen within three years.

The GT-Air 3 Smart is the first commercial helmet to fully integrate HUD, communication, audio, and AI functions. With OLEDoS technology, it revolutionizes rider visibility and reaction speed, marking a milestone in innovation and leading the future of the smart helmet industry.

EyeLights HUD module with Sony OLED microdisplay

EyeLights HUD implementation using a Sony OLED microdisplay (Source: EyeLights)

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

UBI Research’s Micro Display Report

※ This article is produced by UBIResearchNet.
Unauthorized reproduction or citation without source attribution is prohibited.
When quoting, please clearly indicate the source (UBIResearchNet) and provide a link.

Featured graphic highlighting 6.2% QoQ rise in OLED emitter purchases to $521M in Q3 2025, driven by iPhone 17 and iPad Pro (Source: UBI Research)

3Q25 OLED Emitting Material Purchases Rise 6.2%… Driven by iPhone 17 and iPad Pro Demand

November 21, 2025/in Display, Focus on /by UBIResearchNet

Q3 2025 OLED emitter total sales chart (Source: UBI Research)

Q3 2025 OLED emitter total sales by UBI Research

According to UBI Research’s recently published OLED Emitting Material Market Tracker, global OLED panel makers recorded USD 521 million in emitting material purchases in the third quarter of 2025, marking a 6.2% increase QoQ. Purchases increased across most applications—including smartphones, notebooks, tablet PCs, and monitors—and all major panel makers except CSOT posted higher spending during the quarter.

The ramp-up of iPhone 17 series OLED panel shipments in Q3 significantly boosted small-sized OLED production by Korean panel makers, while most Chinese panel makers also saw rising shipment volumes. Tablet PC OLED shipments, which had been weak in Q2, began to recover as supply of new iPad Pro OLED panels increased.

The emitting material market is expected to expand further over the mid- to long-term. UBI Research forecasts global emitting material purchases to grow from USD 2.93 billion in 2025 to USD 3.47 billion in 2029. Growth in the mid-to-large-sized OLED segment is projected to outpace that of small-sized OLEDs, driven largely by Apple’s adoption of tandem OLED structures across major IT products such as the iPad Pro and MacBook. This shift is accelerating structural demand for higher-performance OLED materials.

OLED adoption in the automotive display market is also emerging as a key structural growth driver. As vehicles increasingly demand high brightness and durability, the adoption of 2-stack tandem OLED structures is expected to expand, leading to steady increases in emitting material consumption for automotive applications.

Structural changes are also evident in the demand outlook by OLED architecture. The share of RGB single-stack OLED, currently the dominant structure, is expected to decline by around 10% by 2029. In contrast, emitting material purchases for RGB 2-stack tandem OLEDs are projected to grow at the fastest pace. This trend aligns with the rapid expansion of IT and automotive OLED markets, where high-reliability and high-brightness performance requirements favor tandem structures.

Investment strategies among panel makers are further contributing to the expansion of the emitting material market. Major Korean and Chinese panel makers are actively investing in 8.6-generation IT-oriented OLED production lines, accelerating a long-term shift from a small-sized OLED–centric market toward a structure in which IT and automotive OLEDs account for a larger share. Beginning in 2026, Samsung Display, BOE, and Visionox are expected to begin full-scale mass production on their 8.6G 2-stack tandem OLED lines, which will drive a rapid increase in related emitting material consumption.

UBI Research analyst Noh Chang-ho stated, “Once full-scale mass production begins after 2026, emitting material consumption for RGB 2-stack tandem OLEDs will grow rapidly.” However, he also cautioned that “as Chinese emitting material suppliers begin providing low-cost materials to domestic panel makers, the growth rate of emitting material purchase value may not fully match the increase in consumption volume,” highlighting rising concerns over intensifying price competition.

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

OLED Emitting Material Market Tracker Sample

Tianma Unveils Future Display Roadmap at TIC 2025

November 20, 2025/in Display, Focus on /by UBIResearchNet

On November 18th, the 2025 Tianma Microelectronics Global Innovation Conference (TIC 2025) was held in Wuhan, under the theme of “Innovation, New Horizons.” UBI Research summarized the key findings and technological trends presented at the event. This year’s TIC was attended by approximately 1,000 participants, including government and academic officials, global industry chain partners, investment institutions, and the media, who discussed the future direction of next-generation display technology. The conference served as a meaningful platform to showcase Tianma’s technological innovation achievements and simultaneously announce its ecological cooperation, technological standards, and sustainable development strategies.

The event featured specialized sessions on five key technology areas strategically strengthened by Tianma: the intelligent cockpit ecosystem, OLED technology, IT display technology, Micro LED, and intelligent sensing. A panoramic exhibition space encompassing smartphones, vehicles, IT, wearables, and professional displays was also unveiled. The “Tiangong Screen” experience zone showcased premium OLED technology, featuring eye protection, high resolution, and high refresh rates. The “Tianxuan Screen” exhibition area showcased advanced vehicle display experiences, showcased in real vehicles, including the Yangwang U9 and U7, ZEEKR 009 Glory Edition and 9X, NIO ES6, and Xpeng X9.

OLED technology for smartphones garnered significant attention at the presentation. Tianma unveiled the world’s first “Full Ambient Light Sensing Display,” which integrates fingerprint recognition, ambient light detection, and panel life monitoring into a single panel. This significantly enhances the user experience by reducing sensor thickness by 99% and improving light detection performance by 40x. Furthermore, the company unveiled “Super Narrow Bezel” technology, which utilizes circuit optimization based on LTPO 3.0 Pro to reduce the bezel by 20% for enhanced immersion, and the “Premium Health Display” solution, which improves blue and green light emission efficiency to reduce power consumption. In the automotive display sector, a number of technologies that best portray the future of cockpits have emerged. The 49.6-inch ultra-wide-angle panoramic screen integrates the instrument panel, side mirrors, rearview mirror, and center console into a single large screen. Its ACRUS-based pixel-level dimming technology delivers a contrast ratio of 100,000:1 and low reflectivity. Furthermore, the “IRIS HUD Panoramic Screen,” with its 12,000nit brightness, projects driving information clearly onto the windshield, garnering attention as a HUD solution that simultaneously addresses power and thickness issues. Adding to this a 13-inch central display with an L-shaped curved panel and a dynamic roll-up screen that can expand or hide a 17-inch screen in just six seconds, the possibilities for in-vehicle UX have been significantly expanded.

Tianma IRIS HUD Panoramic Automotive Display System (Source: Tianma)

Tianma 49.6-inch Curved ACRUS Panoramic Screen for Automotive (Source: Tianma)

IT display technology targets next-generation PCs and esports demand. “LEAF 2.0” technology, which significantly reduces logic power consumption even at 1Hz through oxide-based ultra-low frequency operation, addresses the power efficiency demands of the AIPC era. The world’s first esports panel with a 610Hz refresh rate aims to optimize the screen for professional gaming environments with ultra-fast response and minimal afterimages.

Finally, in the Micro LED field, Tianma unveiled its flagship products, symbolizing the company’s technological prowess. The first exhibit to catch the eye was the 19-inch IRIS HUD Micro-LED, a HUD solution that delivers over 2,000 nits of brightness to the driver’s field of vision through precision tiling and a high-brightness design. Featuring a compact structure and non-reflective design, it suggests the potential for lighter and smaller HUDs for luxury vehicles.

Furthermore, the 19-inch transparent Micro-LED tiling panel demonstrates next-generation HMI technology, combining 60% transparency with 5,000nits of brightness to display information while maintaining a clear view from inside the vehicle. The 7.05-inch ultra-slim bezel transparent Micro-LED, displayed alongside the display, boasts a bezel of less than 0.1mm, emphasizing the design perfection of the transparent display.

At the center of the exhibition was a 108-inch 4K Seamless Tiling Micro-LED. This all-laser transmission-based display features 1,500nits peak brightness, a 0mm bezel, and a sophisticated LTPS-based structure. The seamless implementation ensured that the module boundaries were virtually invisible during actual playback.

This exhibition demonstrated the rapid expansion of Micro-LED technology and its potential for implementation in diverse applications, including automotive, IT, and large commercial screens. Tianma showcased its extensive portfolio, encompassing HUDs, transparent panels, and large tiling screens, clearly demonstrating its Micro-LED R&D strategy and signaling its potential to shape a new competitive landscape in the premium display market.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Automotive Display Technology and Industry Trends Analysis Report

2025 Micro-LED Display Industry and Technology Trends Report

TIC 2025: Tianma Unveils Dual Micro LED Roadmap Targeting AR, Automotive, and IT

November 20, 2025/in Display, Focus on /by UBIResearchNet

At the 2025 Tianma Microelectronics Global Innovation Conference (TIC 2025) held on November 18, Tianma garnered attention from the industry by unveiling its Micro LED technology roadmap and future strategy. The presentation began by emphasizing that Micro LED has passed the technology verification stage and entered a full-fledged growth phase. Tianma explained that Micro LED’s unique values of high resolution, high brightness, and low power consumption are precisely aligned with the demands of major application fields such as AR and MR, automotive, IT, and TV, and are emerging as a key axis driving industrial change. In particular, Tianma clearly presented the future product development direction by presenting a two-track roadmap: completing a mass production platform based on high-speed laser transfer by 2025, and then simultaneously expanding ultra-high PPI AR Micro LED and mid- to large-sized IT and automotive panels.

Tianma Micro-LED Industrialization Layout and Prospects Roadmap (Source: Tianma)

Tianma’s Micro-LED Industrialization Layout and Prospects (Source: Tianma)

Tianma highlighted its rapid internalization of the entire value chain, encompassing chip, transfer, panel, and calibration technologies, as a key strength. According to the announcement, Micro LED chip sizes have been reduced from 20μm to less than 5μm, and efficiency has improved to 65-90%. At the module level, Demura-based ultra-high uniformity correction technology has secured screen uniformity of over 99%. A high-speed, large-area transfer platform has been established, laying the technological foundation for precise placement of millions of chips. Furthermore, chip-on-glass-based pixel repair technology supports its yield maximization strategy.

In terms of manufacturing structure, Tianma announced a hybrid roadmap that utilizes three manufacturing strategies: RGB precision transfer, bump structures, and QD color conversion, tailored to each application. RGB is optimized for large-scale, high-resolution panels for IT applications, while the blue single-chip-based QD color conversion method, with its high yield and simplified process, is emerging as a key solution for ultra-high PPI displays for AR and MR. Tianma predicts that ultra-high-resolution Micro LEDs focused on AR and MR, and mid- to large-sized panels focused on automotive and IT, will become the two pillars of the future Micro LED market, and announced that it will continue to strengthen its “dual strategy” to secure competitiveness in both markets.

The Micro LED products on display at TIC 2025 were a symbolic demonstration of Tianma’s technological maturity. The 108-inch 4K “Borderless Giant Screen” in particular attracted great attention. This screen, realized through a combination of Full Laser Mass Transfer (FLM) and Seamless Splicing technologies, has virtually invisible seams of less than 20μm. With a maximum brightness of 1,500 nits, a reflectivity of less than 2%, and a contrast ratio of 1,000,000:1, it demonstrated that Micro LED technology can achieve OLED-level picture quality while also offering higher brightness and durability than LCD. It is evaluated as a representative example that shows the potential of Micro LED in various fields such as large commercial spaces, high-end home cinema, and professional video environments.

Tianma 108-inch 4K Micro-LED Borderless Giant Screen (Source: Tianma)

Tianma’s 108-inch 4K Micro-LED Borderless Giant Screen displayed at TIC 2025 (Source: Tianma)

UBI Research Vice President Changwook Han evaluated this conference, saying, “What is particularly impressive is that Tianma is rapidly internalizing the entire Micro LED process technology.” He analyzed that in the Micro LED market, which is being reorganized into two axes of ultra-high-resolution AR/MR and medium- to large-sized IT/vehicle displays, Tianma is establishing a technological foundation that can compete in both areas. He also said, “The 108-inch borderless screen on display this time is a symbolic result that shows that Tianma has moved beyond the R&D stage and entered the actual product implementation stage,” and predicted that the completion of the entire process, yield, and large-area technology to secure future mass production competitiveness will be a significant inflection point in the global Micro LED market.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

Featured image illustrating global IT OLED shipment growth forecast through 2029 (Source: UBI Research)

“Beyond Mobile” Era Begins… IT OLED to More Than Double by 2029

November 20, 2025/in Display, Focus on /by UBIResearchNet

IT OLED shipment forecast chart for 2025–2029 (Source: UBI Research)

IT OLED shipment forecast (Source: UBI Research)

According to UBI Research’s recently published report, “Beyond Mobile: IT OLED Technology and Industry Analysis,” global shipments of IT OLEDs are expected to more than double from 24 million units in 2025 to 53 million units in 2029. The report states that OLED adoption in tablets, notebooks, and monitors is entering a structural growth phase over the next four years.

Company-level shipment projections also show clear shifts. Samsung Display, currently the largest producer of OLED panels for notebooks, tablets, and monitors, is expected to maintain a stable market share of more than 60%. LG Display, Everdisplay, BOE, and Visionox are projected to follow, shaping a competitive global landscape in the IT OLED market.

Because most IT OLED products use medium-to-large panel sizes, large-substrate production lines that maximize glass utilization rates are essential. As global device makers—especially Apple—accelerate their adoption of OLED across IT product categories, panel manufacturers are positioning 8.6-generation (8.6G) OLED line investments as a core strategic priority.

The investment landscape reflects this trend. After Samsung Display announced the industry’s first 8.6G OLED line investment worth approximately KRW 4 trillion in April 2023, BOE, Visionox, and TCL CSOT soon followed. More recently, Tianma has also begun reviewing 8.6G OLED investment, drawing attention across the industry. This shift signals that the OLED market is moving beyond a smartphone-centered structure and into a phase of expanding demand driven by notebooks, tablets, and monitors.

As the market grows, technology requirements for IT OLEDs are also becoming more stringent. The report highlights that IT products have longer replacement cycles and a higher percentage of white-background usage for document work, making them more vulnerable to burn-in than smartphones. As a result, 2-stack tandem OLED, known for long lifetime, high brightness, and high efficiency, is evaluated as essential. Samsung Display, BOE, and Visionox are therefore investing in production lines capable of mass-producing 2-stack tandem OLED.

Customer acquisition competition is another critical factor. Samsung Display has secured Apple as a key customer and is building its strategy around mass production for the OLED “MacBook Pro.” In contrast, Chinese panel makers are prioritizing markets for OLED panels used in notebooks, tablets, and smartphones among Chinese and global brands, rather than targeting Apple’s supply chain as their first objective.

UBI Research Vice President Changwook Han stated, “As Chinese OLED panel makers rush into 8.6G OLED investments in an effort to catch up with Samsung Display, the industry is closely watching how effectively Samsung Display can leverage its technology leadership to secure additional IT customers beyond Apple.”

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

Visualization of TCL CSOT’s 0.28-inch 5,131 PPI Micro LED and 2.56-inch 1,500 PPI OLED microdisplay technologies

0.28-inch 5,131 PPI Micro LED and 1,500 PPI OLED… TCL CSOT Takes the Micro-display Market to the Next Level

November 19, 2025/in Display, Focus on /by UBIResearchNet

TCL CSOT is further solidifying its presence in the next-generation near-field display market and driving changes in the AR and VR ecosystem. Unveiled at the 2025 Global Display Ecology Conference, the two latest micro-displays – a silicon-based Micro LED that delivers ultra-high resolution and a glass-based Real RGB OLED that achieves high PPI – target key requirements for the development of AR and VR devices, respectively. This announcement is particularly noteworthy because TCL CSOT has achieved breakthroughs in both silicon-based and glass-based technologies, creating a significant shift in the technological landscape of the micro-display market.

The most noteworthy product is a 0.28-inch full-color silicon-based Micro LED micro-display. This product delivers full color with high color accuracy on a single chip, and with an ultra-high pixel density of 1280 x 720 and 5,131 PPI, it achieves a “retina-level clarity.” The high-density structure, which makes pixel particles completely imperceptible on small screens, offers significant advantages, particularly in devices with extremely close eye-to-screen distances, such as AR glasses. Furthermore, the silicon-based self-luminous structure facilitates high brightness and a high contrast ratio, enabling a clear image even in small displays prone to brightness loss. Combining Micro LED’s high-efficiency light-emitting characteristics with ultra-high brightness, its ability to maintain clarity even outdoors or in high-light environments is considered a clear competitive advantage over existing OLED-based micro displays.

TCL CSOT 0.28-inch 5,131 PPI silicon-based Micro-LED display (Source: TCL CSOT)

TCL CSOT 0.28-inch 5,131 PPI Micro-LED display (Source: TCL CSOT)

TCL CSOT’s proprietary quantum dot-based color conversion material is also significant. Combining a single blue Micro LED with a quantum dot color conversion layer, rather than individual RGB chips, for full-color implementation offers significant technological value in terms of simplified manufacturing processes, stable yields, and improved color reproducibility. In particular, managing luminous efficiency and color uniformity is crucial for AR displays, which are undergoing extreme miniaturization. TCL CSOT’s material technology is believed to have significantly addressed these limitations. This high-efficiency material-based approach demonstrates the potential for improved cost structure in future mass production and is a key step toward resolving the color process challenges that have hindered the commercialization of Micro LED AR devices.

On another front, the 2.56-inch glass-based Real RGB OLED is noteworthy. VR and MR displays have relied on silicon-based OLEDs to achieve high PPI, but their high manufacturing costs have limited their adoption in mainstream products. TCL CSOT’s achievement of over 1,500 PPI on a glass substrate goes beyond simple high-resolution performance and signals a potential shift in the VR and MR market structure itself. Adopting a Real RGB pixel structure ensures color accuracy and color coordinate stability, while specifications like a refresh rate of over 120Hz and a contrast ratio of 1,000,000:1 fully meet the demands of high-end VR and MR devices.

TCL CSOT 2.56-inch glass-based Real RGB OLED display (Source: TCL CSOT)

Global big tech companies, in particular, are embracing this same technological trend. Apple, following the launch of its “Vision Pro” in 2024, which uses silicon-based OLEDoS, is reportedly preparing a glass-based MR display for its next entry-level model to reduce costs. This demonstrates a growing shift in the high-resolution VR and MR market, moving away from a silicon-based, single-resolution strategy and toward diversifying substrate structures based on application and price range. The attention given to TCL CSOT’s glass-based, high-PPI OLED is aligned with this industry shift. Glass substrates, with their high cost competitiveness, play a crucial role in popularizing VR and MR. Their ability to lower price barriers while maintaining high resolution is likely to impact the entire global supply chain.

TCL CSOT’s technological advancements in both silicon-based Micro LED and glass-based OLED demonstrate the growing emphasis on high-density, low-power, and high-brightness requirements for future AR and VR devices. Micro LEDs, with their high brightness, peak performance, low power consumption, and long lifespan, are particularly suited for ultra-compact and lightweight devices centered around AR glasses. OLEDs, with their wide color gamut and high-quality image quality, enhance the immersive experience of VR and MR headsets. As the complementary nature of these two technologies becomes more evident, the micro-display market, which had stagnated in recent years, is rapidly expanding again.

UBI Research Executive Vice President Changwook Han commented on this technology announcement, saying, “Micro LED and high-resolution OLED are key technologies that determine the completeness and user experience of AR and MR devices.” He added, “Micro LED, in particular, is at a critical turning point that will accelerate the commercialization of AR glasses in terms of brightness, power, and lifespan. The proliferation of glass-based, high-PPI OLEDs will lower the cost barriers in the VR and MR markets, rapidly accelerating the expansion of mass-market models.” He summarized the future direction of the micro-display ecosystem as “lightweight, low power, and high definition,” predicting that companies that comprehensively optimize not only technology but also optics, materials, and actuator quality will secure future competitiveness.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

Illustration summarizing China’s display industry response to EU PFAS REACH restrictions

China’s Display Industry prepares for EU PFAS regulations

November 18, 2025/in Display, Focus on /by UBIResearchNet

EU REACH PFAS restriction proposal timeline

EU PFAS REACH restriction proposal timeline

China’s display panel industry is accelerating its transition to PFAS-free production in response to the European Union’s (EU) strengthened regulations on PFAS (Per- and Polyfluoroalkyl Substances, persistent harmful chemicals). The EU’s REACH (Registration, Evaluation, Authorization and Restriction of Chemicals) PFAS substance restriction regulation is based on an initial proposal submitted in January 2023 by five member states: Denmark, Germany, the Netherlands, Norway, and Sweden. Following a public consultation from March to September 2023, which gathered over 5,600 comments, an updated Background Document was published on August 20, 2025.

This regulation proposes restriction options due to the environmental and health hazards posed by PFAS’s persistence, mobility, and bioaccumulation. Concentration limits were set at 25 ppb for individual PFAS, 250 ppb for group totals, and 50 ppm for all PFAS (including polymers). The Commission will publish the amended REACH regulation in December 2025. Following deliberation by the Parliament and Council, full implementation will commence in 2027. Essential use exemptions (e.g., medical devices, safety-related applications) will undergo strict scrutiny and will only be permitted when no alternatives exist. Penalties, determined by member state laws, include administrative and criminal sanctions, posing a significant risk of export bans for violations. This regulation forms part of the EU’s ‘Chemical Strategy for Sustainability’ (2020), aiming for an 80% phase-out of PFAS by 2030.

These regulations are expected to directly impact OLED and LCD processes in the display industry (cleaning agents, coating agents, etc.), prompting major Chinese companies to reassess supply chains and develop alternatives. For the display industry, developing PFAS-free alternatives (such as silicon-based coatings) for OLED deposition and cleaning processes is a key challenge. China’s display industry, with its high export share to the EU, is expected to face impacts across its entire supply chain.

BOE is reevaluating key materials for its European exports—including photoresist (PR), polarizers, and cleaning solutions—to comply with EU REACH standards. It has requested suppliers like Japan’s JSR and Shin-Etsu Chemical to switch to non-fluorinated alternatives and is testing silicon-based coatings on a pilot line at its Hefei plant. Considering the EU market’s 22% share of its total sales, non-compliance by 2026 could risk halting exports. BOE is concurrently improving its AMOLED processes, primarily at its Chongqing and Hefei plants, while constructing an 8.6-generation AMOLED line (B16) with a target lighting-up date of late 2025. The LCD product line, with its lower process complexity, plans to prioritize the transition to PFAS-free materials by 2027. Notably, for Apple supply, PFAS-free materials are scheduled for application starting with the iPhone 18 series. BOE is evaluating PFAS-free options from Rouxian (柔显) and Mitsubishi Chemical to replace the Black PDL (Pixel Definition Layer) material. Black PDL is a core material in the Pol-less OLED structure, contributing to reduced device thickness and improved efficiency.

TCL CSOT is enhancing its process to minimize PFAS usage by leveraging inkjet printing (IJP) technology. Its 8.6-generation OLED factory, which broke ground in Guangzhou in November 2025, applies IJP to directly print RGB materials without fluorine-based vapor deposition processes, expecting a 20% cost reduction and improved energy efficiency. TCL CSOT highlighted the potential for minimizing PFAS use, reducing costs by 20%, and improving energy efficiency at SID Display Week 2025.

Visionox is reducing PFAS dependency with its FMM-free ‘ViP (Visionox intelligent Pixelization)’ technology. This photolithography-based pixel patterning reduces PFAS exposure during cleaning and coating steps. Construction of its Hefei 8.6-generation OLED factory commenced in late February 2025.

China’s Ministry of Industry and Information Technology (MIIT) set a 70% domestic substitution rate target for PFAS alternatives by 2026 in its ‘PFAS Usage Restriction Roadmap’ announced in December 2024, while expanding R&D subsidies for companies like BOE and TCL CSOT. This represents national-level support linked to semiconductor and display self-sufficiency policies, bolstering China’s OLED shipment expansion. The MIIT roadmap prioritizes banning specific PFAS like PFHxA and PFOA, similar to the EU REACH regulation, aiming for full implementation by 2027.

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

China Trends Report Inquiry

Illustration of the Peugeot Polygon Concept Car featuring Micro-LED HUD, front lighting, rear & C-pillar displays (Source: UBI Research)

Peugeot Polygon Concept Car: Micro LED Unlocks the Next-Generation UX Experience

November 17, 2025/in Display, Focus on /by UBIResearchNet

Peugeot has unveiled its new “Polygon” concept car, a model that embodies the brand’s future design direction and signals a major leap forward in next-generation automotive displays. Positioned as a representative model of Peugeot’s post-2027 identity, the Polygon concept blends futuristic design language with production-ready engineering, drawing industry attention as a prototype that goes beyond the typical inspirational show car.

Inside the vehicle, the Polygon concept redefines the traditional in-car interface. The conventional instrument cluster has been removed, and key driving information is projected directly onto the windshield through a Micro LED module positioned behind the Hypersquare® steering controller. The projected display area measures approximately 24 × 74 cm, equivalent to about 31 inches, allowing drivers to view critical information without shifting their gaze-an evolution of AR-based HUD technology.

Micro LED technology is also extensively incorporated into the exterior lighting system. At the front, Peugeot’s signature Three-Claw Lighting design is arranged horizontally and powered by Micro LED to achieve high brightness and high-density illumination. Both the headlights and taillights utilize Micro LED screens capable of rendering dynamic graphics, creating a cohesive visual identity across the vehicle while enabling advanced personalization.

A dedicated Micro LED display is mounted on the rear C-pillar near the charging connector, allowing users to check the vehicle’s charging status without entering the cabin. Despite its small size, the display delivers outstanding visibility and energy efficiency-core strengths of Micro LED-offering both functional value and refined design aesthetics.

Peugeot Polygon Concept Car 31-inch Micro-LED HUD (Source: Peugeot)

31-inch Micro-LED HUD of the Polygon Concept Car (Source: Peugeot)

Peugeot Polygon Concept Car Micro-LED Front Lighting System (Source: Peugeot)

Micro-LED front lighting on the Polygon Concept Car (Source: Peugeot)

Peugeot Polygon Concept Car Micro-LED Rear & C-Pillar Displays (Source: Peugeot)

Rear & C-Pillar Micro-LED displays in the Polygon Concept Car (Source: Peugeot)

Micro LED stands at the center of this transformation. With its high brightness, long-term durability, and programmable graphic capability, the technology is emerging as a key enabler of next-generation automotive lighting and HMI. In particular, transparent PHUDs benefit from Micro LED’s high transparency and ultra-high luminance, ensuring excellent outdoor visibility and robust performance in harsh environments.

Automotive Micro-LED market revenue forecast graph (Source: UBI Research)

Automotive Micro-LED market revenue forecast (Source: UBI Research)

Major panel manufacturers are accelerating their Micro LED strategies in line with this trend. Companies such as AUO, BOE, Tianma, and TCL CSOT are actively showcasing transparent display and PHUD-oriented Micro LED solutions, signaling rapid expansion into the automotive Micro LED market.

According to UBI Research Executive Vice President Changwook Han, “Micro LED is a next-generation display technology optimized for automotive environments through its application to transparent displays and PHUD.” He further noted that “widespread adoption is expected to begin around 2028.” Based on UBI Research’s 2025 Micro-LED Display Industry and Technology Trends Report, the automotive Micro LED display market is forecast to exceed USD 110 million by 2030.

The Polygon concept symbolizes this broader industry shift, demonstrating how Micro LED technology can redefine the future of in-vehicle UX, lighting, and information visualization-positioning Peugeot at the forefront of next-generation automotive display innovation.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Automotive Display Technology and Industry Trends Analysis Report

2025 Micro-LED Display Industry and Technology Trends Report

Tianma’s 8.07-inch HUD, 8.07-inch low-reflection transparent, 9.38-inch adjustable-transparency, and 7.05-inch narrow-bezel transparent Micro-LED displays showcased at CIIE 2025 (Source: Tianma)

Tianma Unveils ‘Next-Generation Transparent Micro-LED’ at CIIE… Technology to Watch in the Premium Mobility Market

November 14, 2025/in Display, Focus on /by UBIResearchNet

At the 2025 China International Import Expo (CIIE), Tianma Microelectronics Co. (Tianma) garnered attention from the industry by unveiling its latest Micro LED transparent display technology. CIIE is a national-level import expo led by the Chinese government, where global companies showcase their latest technologies and products to the Chinese market. This year’s event showcased a wide range of digital industry solutions, particularly next-generation display solutions. Tianma’s Micro LED technology received high praise for its diverse applications in automotive, commercial spaces, and smart homes.

Tianma has long been a competitive player in flexible OLED and mobile/automotive displays, and has been actively developing Micro LED technology since 2017. In particular, its glass-based Micro-LED transparent display technology has seen tangible results in recent years, overcoming technical challenges. The company has achieved high mass production by establishing the industry’s first G3.5 generation fully automated mass transfer production line, and its self-developed transfer equipment reportedly achieves a production efficiency of up to 40 million units per hour. This foundation has enhanced the industrial potential of transparent displays and contributed to meeting the key characteristics of transparent displays, including high brightness, high transparency, and low reflectivity.

At this year’s CIIE, Tianma demonstrated technological advancements centered on four key Micro-LED transparent displays. First, the 8.07-inch HUD was introduced, featuring high brightness of 10,000nits, a thin structure, wide color reproducibility, and a fast response speed, making it optimized for vehicle windshield HUD applications.

Tianma 8.07-inch HUD Micro-LED display (Source: Tianma)

Tianma 8.07-inch HUD Micro-LED (Source: Tianma)

The 8.07-inch transparent, low-reflection display has the industry’s highest resolution of 167 PPI, a transmittance of over 50%, and a low reflectance of less than 3%, demonstrating its potential for use in automotive windows and instrument displays.

Tianma 8.07-inch transparent low-reflection Micro-LED display (Source: Tianma)

Tianma 8.07-inch transparent low-reflection Micro-LED (Source: Tianma)

The 9.38-inch transparency-adjustable display can automatically adapt to the surrounding light environment by changing the transparency from 0.1% to 24%, ensuring high visibility even in complex lighting conditions.

Tianma 9.38-inch transparency-adjustable Micro-LED display (Source: Tianma)

Tianma 9.38-inch adjustable-transparency Micro-LED (Source: Tianma)

Lastly, the 7.05-inch narrow bezel transparent display has an ultra-thin bezel of less than 0.1mm and transparency of over 60%, suggesting expandability in various environments such as large commercial displays, smart homes, and vehicle interfaces.

Tianma 7.05-inch narrow-bezel transparent Micro-LED display (Source: Tianma)

Tianma 7.05-inch narrow-bezel transparent Micro-LED (Source: Tianma)

Automaker Xpeng also participated in the event, discussing how Micro LED technology will transform future vehicle display configurations. An expert from Xpeng stated that displays are evolving beyond simple information displays into interactive spaces, and transparent displays will be key to this transformation. He emphasized that Tianma’s technology holds the potential to deliver new user experiences in advanced vehicles, but noted that cost and energy consumption remain major obstacles to commercialization. He noted that the current technology is likely to be initially applied to luxury vehicles priced at 500,000 yuan (approximately $70,000) or more, and that further cost reductions and process optimization are needed to expand to mass-market vehicles.

Changwook Han, Executive Vice President of UBI Research, commented, “This collaboration demonstrates the expanding role of display technology in the future intelligent mobility market.” He added, “Transparent Micro-LED is a key technology that will transform vehicle interiors into platforms that combine information and interaction, and will be a crucial element in strengthening the differentiation of luxury vehicles in particular.” He also analyzed, “While there are still challenges to address in terms of cost and process efficiency, the technological achievements confirmed at this CIIE demonstrate the potential for new application markets to open up in various fields, including vehicle displays and smart spaces.”

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Automotive Display Technology and Industry Trends Analysis Report

2025 Micro-LED Display Industry and Technology Trends Report

Goeroptics booth at CIOE 2025 representing Goertek’s AR/XR smart glasses optical technology and new subsidiary expansion (Source: Goeroptics)

Goertek advances as a powerhouse in the AR/XR glasses industry through the establishment of a new subsidiary

November 13, 2025/in Display, Focus on /by UBIResearchNet

In 2025, the smart wearable device market is undergoing a new transformation, with AR/XR smart glasses advancing toward commercialization. Goertek, an audio, optical, and microelectronics manufacturer, has established several new companies and acquired businesses this year targeting its AR/VR operations.

In early November, Qingdao Goertek Xingqi Intelligent Technology Co., Ltd. was established in Qingdao City. This company is a wholly-owned subsidiary of Goertek, with a registered capital of 200 million yuan. Its primary business areas include manufacturing virtual reality (VR) equipment and wearable smart devices. This signifies the company’s accelerated push into the AR/XR ecosystem through technological advancement, organizational restructuring, and ecosystem collaboration. By dedicating this new entity to AR/XR smart glasses, Goertek has revealed its strategic ambition to position smart glasses as its next-generation growth engine.

Goretek has consistently strengthened its core hardware capabilities in acoustic modules, optical modules, and precision structural components over the long term. The company announced its expansion from traditional contract component manufacturing to the role of a ‘finished product and solution provider’. Regarding its collaborative ecosystem, Gore is actively pursuing deep cooperation with brand manufacturers and optical module companies. Industry reports indicate the company has signed supply contracts for AR modules with well-known brands and is establishing joint ventures with domestic and international optical module companies to enhance its optical waveguide manufacturing capabilities.

Goeroptics booth showcasing AR/XR optical solutions at CIOE 2025 (Source: Goeroptics)

Goeroptics booth at CIOE 2025 for AR/XR optical solutions (Source: Goeroptics)

The global AR/XR smart glasses market is projected to experience rapid growth between 2026 and 2030. According to public disclosures and external reports, the company’s internal goal is to secure a leading position as a ‘module + finished product’ solution provider and achieve a 10-20% global market share in the medium term. If Goretek successfully builds an industrial supply chain from components to finished products, it is projected to become a new growth driver for the company’s overall performance.

Despite aggressive market entry, this company and industry players face major challenges. First, core display components (e.g., micro-LEDs, light guide modules) have not yet fully entered mass production. Second, for smart glasses to become part of daily wear, key issues like weight reduction, battery life, and wearing comfort must be resolved. Furthermore, the consumer smart glasses ecosystem is still in its early stages, and content and usage scenarios require further development. Companies that overcome these challenges will emerge victorious in the AR/XR glasses market competition.

Namdeog Kim, Senior Analyst at UBI Research(ndkim@ubiresearch.com)

UBI Research’s Micro Display Report

Featured image of ASUS ROG Swift OLED PG27AQWP-W equipped with LG Display’s 4th Gen White OLED panel — 540Hz refresh rate and 1,500-nit peak brightness

ASUS ROG Leads Gaming Monitor Innovation with LG Display’s 4th-Generation White OLED

November 12, 2025/in Display, Focus on /by UBIResearchNet

ASUS’s gaming brand, ROG, recently released its 27-inch gaming monitor, the ROG Swift OLED PG27AQWP-W, featuring LG Display’s latest 4th-generation white OLED panel. LG Display is extending its proven TV technology to the monitor market, enhancing brightness and durability to address OLED’s weaknesses. ASUS, a top-five global gaming monitor manufacturer, has adopted this new OLED panel for its ROG series, marking a significant step toward popularizing OLED technology in the premium gaming monitor market.

The ROG Swift OLED PG27AQWP-W features a 26.5-inch QHD resolution, 4th-generation white OLED panel, and supports dual modes: 540Hz in QHD and 720Hz in HD. It boasts a fast response time of 0.02ms, and the application of LG Display’s 4th-generation white OLED technology delivers high luminance efficiency and a lifespan that’s approximately 60% longer than previous models. Color expression has been improved by 25%, and maximum brightness has been increased by 15% compared to the previous model.

ASUS ROG Swift PG27AQWP-W vs XG27AQDMG gaming monitor specs comparison – 4th Gen White OLED applied (Source: ASUS)

Comparison of ASUS ROG Swift PG27AQWP-W and XG27AQDMG specs (Source: ASUS)

The structure of the 4th generation white OLED is a 4-layer configuration including 2 blue light-emitting layers and red and green layers. On the other hand, the 3rd generation white OLED was a 3-layer structure with 2 blue light-emitting layers and red, green, and yellow elements arranged in one layer, and a Micro Lens Array (MLA) was applied. The peak brightness (based on 1.5% APL) of the ‘ROG Strix OLED XG27AQDMG’ using the 3rd generation OLED was around 1,300 nits, but this new model with the 4th generation OLED applied has improved to 1,500 nits, realizing much clearer HDR picture quality.

Comparison of LG Display’s 3rd and 4th Gen White OLED structures with brightness and lifetime improvements (Source: LG Display)

Comparison between 3rd and 4th Gen White OLED structure and performance (Source: LG Display)

LG Display’s 4th-generation OLED was first applied to LG Electronics’ “UltraGear 27GX700A” gaming monitor, in addition to ASUS. This model demonstrated the performance of the new OLED technology, achieving a full white brightness of 335 nits and a peak brightness of 1,500 nits. Starting with this ASUS ROG model, LG Display plans to expand the application of the 4th-generation white OLED to various IT monitors. Building on its expertise in OLED TVs, LG Display aims to deliver a new level of picture quality competitiveness in both gaming and creative applications.

“LG Display’s 4th-generation OLED is expected to accelerate the adoption of OLED in both the gaming and IT display markets by applying proven TV technology to monitors,” said Changwook Han, Executive Vice President of UBI Research. “In particular, the improved lifespan and high brightness achieved through the 4th-generation white OLED structure will be a significant turning point in the competitive landscape of the high-end gaming monitor market.”

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

Quarterly Small OLED Display Market Tracker Sample

Quarterly Medium & Large OLED Display Market Tracker Sample

Graphical summary of BOE’s conversion of its B1 line to Micro OLED (OLEDoS) production and its strategic move into micro-display market (Source: UBI Research)

BOE Establishes Micro OLED Production System on B1 Line… Strengthens ‘Micro Display’ Competitiveness with In-House Silicon Backplane Development

November 11, 2025/in Display, Focus on /by UBIResearchNet

BOE IPC displayed 0.49-inch 4496 ppi Micro OLED (OLEDoS) AR glasses (Source: BOE)

BOE 0.49″ Micro OLED (OLEDoS) AR glasses (Source: BOE)

BOE will convert its Beijing B1 (LCD) line to complete an early-stage 12-inch silicon-based Micro OLED (OLEDoS) production cleanroom and establish a mass production system based on 5K resolution. Sunic system ‘s 12-inch deposition equipment is scheduled for delivery in November. Investment funds will be supported by the Beijing B20 line, maximizing utilization of the existing B1 line infrastructure. Additionally, the company has replaced its previously outsourced silicon (Si) backplane design with an in-house development approach, achieving shorter design cycles and rapid feedback loops. Future investment plans extend beyond Micro OLED modules to include optical modules such as optical waveguides.

The primary investment objective is to respond to Meta-oriented products, which are currently competing with Seeya. Phase 1 line capacity is 5K units per month based on 12-inch wafers. Depending on market conditions, plans include expanding Phase 2 with an additional 5K capacity line.

The B20 line is currently constructing Phase 1 for R&D and manufacturing of high-resolution, high-speed LCD displays. Layout plans and mass production schedules for a Micro LED pilot line are also being finalized.

BOE is reorganizing its portfolio centered on OLEDoS and LEDoS. It is strengthening its market responsiveness with a diversified lineup: high-resolution OLEDoS products for the premium AR/VR market and high-speed LCDs for the mid-to-entry-level XR market. Concurrently, it is actively developing LEDoS as a next-generation product.

BOE is developing and mass-producing micro-displays at multiple bases including Qingdao (BIOT), Ordos (B6), Chongqing (B12), and Kunming (BMOT). The Chongqing base operates R&D and production lines for VR AMOLED, while Kunming operates OLEDoS production lines. Notably, it is strategically repurposing existing LCD infrastructure to concurrently produce high-resolution LCDs exceeding 2,000 ppi. Ordos (B6) manufactures high-speed LCD panels, while Qingdao (BIOT) assembles and produces high-speed LCD modules. BOE is intensifying its competition for XR panel orders through rapid facility expansion compared to rivals like Sony and Seeya.

The global micro-OLED display market is expected to see intense competition for orders of next-generation products destined for XR devices within the next few years. Following Sony and Seeya, companies like BOE and SIDTEK are making large-scale investments to establish annual production capacities ranging from several million to tens of millions of units. This will enable global brands like Meta, Apple, and Samsung to utilize multiple supply chains. BOE’s in-house silicon-based design and mass production system are expected to enhance the group’s overall standing in terms of product specifications and cost competitiveness.

BOE’s recent strategic shift aims to strengthen technological independence within China’s industry while securing a core supplier position in the global XR display ecosystem. Initiatives like developing its own silicon backplane and establishing a 12-inch OLEDoS line are expected to improve performance, reduce mass production costs, and shorten product launch lead times.

Detailed information on China’s Micro OLED industry status can be found in UBI Research’s report.

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

China Trends Report Inquiry

Graph illustrating 2025 foldable OLED shipment decline and anticipated 2026 market recovery driven by Apple’s foldable iPhone (Source: UBI Research)

Slow Growth in Foldable Phones Due to High Prices and Weak Demand… The 2026 Foldable iPhone Expected to Be a Turning Point

November 10, 2025/in Display, Focus on /by UBIResearchNet

OLED shipment trend for foldable smartphones in 2025 by quarter showing QoQ and YoY changes (Source: UBI Research)

OLED Shipment Trend for Foldable Phones (Source: UBI Research)

According to UBI Research’s recently published Small OLED Display Market Tracker, global shipments of OLEDs for foldable phones continued to show weak year-on-year performance for three consecutive quarters.

Cumulative shipments for January–September 2025 totaled 16.7 million units, down about 20 percent from 21 million units during the same period last year. On an annual basis, foldable OLED shipments in 2025 are expected to reach 21.3 million units, a 14.4 percent decrease from the previous year.

The foldable-phone market, now in its fifth year since launch, has entered a mature stage but faces limitations in expanding its consumer base. Although leading brands such as Samsung Electronics and Huawei continue to release new products, new demand beyond replacement purchases has slowed.

The biggest constraint is price. While high-end bar-type smartphones remain in the 1.3 to 1.7 million-won range, Samsung’s Galaxy Z Fold series sells for over 2 million won, and Huawei’s tri-fold model exceeds 3 million won. The foldable iPhone, expected to launch next year, is also likely to be priced above 2.5 million won, making it less accessible to consumers.

As a result, even within the premium market, the perception that “technological innovation does not bring enough practical benefit” is spreading, deepening consumers’ hesitation to buy.

The foldable OLED market is expected to stagnate through 2025, but structural change is likely to begin in 2026. Samsung Display is reportedly set to be the sole supplier of OLED panels for Apple’s foldable iPhone, and once full-scale mass production begins, Samsung’s foldable OLED shipments are expected to rise sharply.

Meanwhile, Chinese panel makers are responding mainly through domestic brands. BOE, CSOT, and Visionox are working to increase market share by improving next-generation hinge structures, enhancing UTG (ultra-thin glass) durability, and expanding low-cost foldable lineups. In particular, Huawei, Oppo, and Vivo are pursuing both “vertical integration” and “domestic-market-focused strategies” to secure price competitiveness.

UBI Research Executive Vice President Changwook Han said, “Foldable phone shipments are stagnant in both Korea and China, but 2026, when Apple enters the market, will be a turning point. Samsung Display is expected to strengthen its influence in the market by maintaining technological superiority and exclusively supplying foldable OLEDs to Apple.”

He added, “Chinese companies are expanding their market share through strong domestic bases, but in terms of panel performance and reliability, they still have not fully closed the technological gap with Samsung.”

The industry expects that although growth in foldable phones will remain stagnant through 2025, it will recover double-digit growth from 2026 after Apple’s market entry.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

Quarterly Small OLED Display Market Tracker Sample

Quarterly Medium & Large OLED Display Market Tracker Sample

Tianma to Significantly Expand Capacity of Xiamen 8.6-Generation LCD TM19 Line to Prepare for Apple IT Display Supply

November 7, 2025/in Display, Focus on /by UBIResearchNet

Tianma is rapidly strengthening its competitiveness in the IT and industrial display markets by significantly expanding the capacity of its 8.6-generation LCD production line, TM19, located in Xiamen.

Currently operating at a capacity of 40K sheets per month, the TM19 line is set to expand to 70K per month by early 2026 and further to 160K per month by early 2027. The current production allocation consists of approximately 15K sheets per month for mobile applications, 20K for IT applications, and 5K for 50-inch industrial panels.

Notably, Tianma has completed technical evaluations aimed at supplying panels for Apple’s iPad and MacBook and is planning to invest in three module lines capable of supporting products ranging from 7 to 16 inches. Among them, one line investment is being prioritized and is reportedly awaiting Apple’s final approval. Industry sources anticipate that part of LG Display’s supply volume may be transferred to Tianma.

In addition to the LCD capacity expansion, the company is also reviewing potential investments in 8.6-generation OLED production. While the specific technology direction and timeline have not yet been finalized, the Xiamen plant is likely to serve as the main base if the OLED investment proceeds.

Junho Kim, Analyst at UBI Research (alertriot@ubiresearch.com)

China Trends Report Inquiry

270-inch 8K TFT-based Micro-LED display jointly developed by Chenxian and Vistar, representing next-generation large-format display innovation

World’s First 270-inch TFT Micro-LED Unveiled: Vistar-Chenxian Lead the Next-Generation Large-Format Display Era

November 6, 2025/in Display, Focus on /by UBIResearchNet

At the 2025 World Display Industry Innovation and Development Conference held in Chengdu, China, Chenxian Optoelectronics unveiled the world’s first 270-inch TFT-based Micro-LED display. The announcement marks a new milestone in the development of China’s Micro-LED industry and is the result of close collaboration with Vistar, a Visionox-affiliated company specializing in Micro-LED technology.

The world’s first 270-inch 8K TFT-based Micro-LED display unveiled by Chenxian and Vistar (Source: Chenxian–Vistar)

World’s First 270-inch 8K TFT-Based Micro-LED Display (Source: Chenxian–Vistar)

The 270-inch large-format display achieves a 0.7 mm pixel pitch and 8K resolution (33 million pixels). With TFT-based active-matrix (AM) driving technology, each pixel is controlled independently, solving the brightness non-uniformity issues common in LED screens while delivering perfect blacks, high contrast ratios, and vivid color reproduction. This makes it ideal for professional cinemas, premium home theaters, command centers, and commercial display applications.

Alongside this flagship model, Chenxian unveiled several new products: a 13.55-inch P0.7 Micro-LED splicing module, a 27-inch P0.7 textured display, and a 19-inch P0.4 transparent Micro-LED screen. The modular design ensures high flatness and minimal seams, enabling scalability for large displays. The transparent model offers 72 % transmittance and supports touch interaction, providing a seamless fusion of digital imagery and real-world environments. Through these developments, Chenxian has established a comprehensive Micro-LED technology ecosystem encompassing materials, equipment, processes, modules, and complete display systems.

The company’s growth has been driven by its collaboration with Visionox and its subsidiary Vistar. Founded in 2020, Vistar specializes in Micro-LED productization and module integration, assembling the Micro-LED tiles manufactured by Chenxian into panel units and integrating drive modules. The tiling process-involving alignment, calibration, and fine adjustment-is carried out by Vistar’s System Integration (SI) engineering division, ensuring the precision required for large-format panels.

Vistar’s investment and mass-production roadmap also highlights the rapid pace of its expansion. A pilot line valued at USD 160 million broke ground in August 2020 and achieved lighting success in May 2021. In 2023, the company began construction of its first mass-production (MP) line worth USD 400 million. Following lighting completion in December 2024, full-scale mass production is scheduled for April 2025, with a USD 1 billion large-scale TFT-based line planned for 2026.

Vistar’s investment and mass production roadmap for Micro-LED lines from 2020 to 2028 (Source: Vistar)

Vistar Investment and Production Roadmap (Source: Vistar)

The unveiling of the 270-inch Micro-LED display demonstrates Chenxian’s emergence as a global leader in both technological innovation and production capability. The vertical collaboration structure between Vistar and Chenxian is accelerating the commercialization of Micro-LED technology and strengthening the overall competitiveness of China’s display industry.

UBI Research’s report, “Micro-LED Display Industry and Technology Trends,” provides a deeper analysis of China’s Micro-LED ecosystem, key investments, and technological roadmaps, offering valuable insights into the market’s future direction.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

Graph showing forecasted growth of OLED notebook shipments from 2025 to 2029 based on UBI Research data

OLED Notebook Market Stagnant in 2025, Poised for Strong Growth from 2026

November 5, 2025/in Display, Focus on /by UBIResearchNet

Forecast graph showing OLED notebook panel shipments from 2025 to 2029 (Source: UBI Research)

OLED Shipment for Notebook Forecast (Source: UBI Research)

The global shipment of OLED notebooks in 2025 is expected to reach about 10 million units, remaining at a similar level to the previous year.

According to UBI Research’s “Mid-to-Large OLED Display Market Tracker”, cumulative shipments through the third quarter of 2025 are estimated at about 6.7 million units, and the total annual shipment is projected to be similar to that of 2024.

The OLED notebook market will remain in an adjustment phase through 2025, but it is evaluated as a period to strengthen the foundation for mid- to long-term growth. The market is currently led by Samsung Display, while LG Display and EverDisplay are also gradually expanding their shipments.

As OLED panel prices continue to fall, Chinese panel makers are expanding the supply of 2-Stack Tandem OLEDs and low-cost Single OLEDs, and steady market growth is expected to follow. Major Chinese companies such as BOE, Visionox, TCL CSOT, and EverDisplay are establishing mass-production lineups for global set makers such as Lenovo, Dell, HP, and Huawei, thereby enhancing their competitiveness.

In 2026, the market structure is expected to change significantly. Industry attention is focused on whether Apple will adopt OLED displays for the MacBook Pro. Apple introduced OLED for the first time in the iPad Pro in 2024 but experienced limited demand due to higher prices. Accordingly, the company is taking a cautious approach to applying OLED to the MacBook series, reportedly reviewing cost structure, demand elasticity, and supply-chain stability.

Changwook Han, Executive Vice President of UBI Research, said, “If Apple launches an OLED MacBook in 2026, the notebook OLED market is expected to grow by more than 30% year on year and to more than double by 2029 compared to 2025.” He added, “Not only Apple but also major global brands such as Acer, Dell, and HP are expanding OLED adoption in their high-end lineups, and OLED notebooks will gradually replace LCDs to become the mainstream premium display.”

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

Quarterly Small OLED Display Market Tracker Sample

Quarterly Medium & Large OLED Display Market Tracker Sample

Google and Magic Leap prototype AR glasses demonstrating Micro-LED and waveguide integration under Android XR ecosystem

Google’s Smart Glasses Development Trends and Announcement of Collaboration with Magic Leap

November 5, 2025/in Display, Focus on /by UBIResearchNet

Starting in 2024, Google has intensified its strategic push into smart AR glasses. Notably, with the announcement of its collaboration with U.S. AR company Magic Leap on October 29 this year, Google is strategically shifting beyond simply building a software platform to aiming for an integrated solution encompassing optics, displays, and manufacturing.

Platform· and software-driven strategy

Building on its success with existing mobile OS, Google formalized the Android XR platform starting late 2024. This serves as an integrated operating system and ecosystem framework for XR devices, representing an expansion strategy that includes glasses-type AR devices. Through this, Google transforms smart glasses from simple camera/display devices into wearable computing platforms integrated with AI capabilities. Translation, object recognition, and voice/gesture interaction are part of this strategy.

Enhancing hardware and display capabilities

On the hardware front, the company has adopted a strategy of expanding its partner model based on platforms and ecosystems rather than launching numerous finished products itself. Notably, it acquired Raxium, a company possessing Micro-LED technology, to secure high-brightness, low-power displays. Furthermore, just a few days ago on October 29th, at the FII (Future Investment Initiative) event in Riyadh, Saudi Arabia, Magic Leap and Google unveiled a joint AR glasses prototype and announced a three-year extension of their collaboration period. The key points of this collaboration are as follows.

Magic Leap’s optical and waveguide technology + Google’s Raxium micro-LED light engine combination → Aiming for enhanced image quality, brightness, and comfort.
Development of AR glasses is being conducted in the form of a reference design, establishing a framework to provide foundational solutions to multiple manufacturers within the Android XR ecosystem.

Prototype Android XR smart AR glasses jointly developed by Google and Magic Leap (Source: Magic Leap)

Google & Magic Leap Prototype Android XR Smart Glasses (Source: Magic Leap)

This collaboration carries multiple strategic implications beyond a simple technological partnership between two companies. It signals Google’s shift toward an ecosystem-centric “platform + partners” strategy over self-production. Amidst competition in smart glasses/headsets from Meta, Apple, Samsung, and others, the Google-Magic Leap alliance appears to be a move to establish a differentiated foundation within the Android XR ecosystem. However, challenges remain. Specifications for the consumer-ready final product (resolution, price, battery life, etc.) have not been disclosed, and the launch is expected after 2026. Technologies like Micro-LED and waveguides have progressed to some extent in research/prototype stages, but they still face challenges in terms of mass production and manufacturing costs.

This announcement of Google and Magic Leap’s collaboration can be seen as a pivotal turning point that redefines the landscape of the smart glasses market. Samsung has just unveiled the Galaxy XR, and it remains to be seen whether the situation could rapidly escalate into a competitive race if Google and its partners make proper moves.

Namdeog Kim, Senior Analyst at UBI Research(ndkim@ubiresearch.com)

UBI Research’s Micro Display Report

AR Glass Market Evolves in Two Directions: China’s Content-Immersive Approach vs. Global Big Tech’s AI-Integrated Wearable Platforms

November 4, 2025/in Display, Focus on /by UBIResearchNet

TCL’s AR brand RayNeo launched its latest AR glasses, the Air 4 Pro, in October 2025. It is pursuing a differentiated strategy in the global AR market by leveraging high-frequency PWM (Pulse Width Modulation) dimming technology and AI-based image optimization.

The RayNeo Air 4 Pro minimizes eye fatigue through 3840Hz high-frequency OptiCare™ dimming. It supports HDR10 and incorporates the Vision 4000 image quality chip, delivering an experience optimized for immersive content viewing. Notably, the Seeya 5.5-generation Micro OLED panel, featuring a tandem OLED light-emitting structure, achieves a maximum brightness of 6000 nits. It maximizes image quality with a wide color gamut (145% sRGB, 98% DCI-P3) and a 200,000:1 contrast ratio.

While competitors like XREAL and Viture focus on external light blocking via electrochromic dimming lenses, RayNeo adheres to a video quality-centric strategy using digital brightness control and an AI video engine. This allows RayNeo to maintain lightweight design (76g) without increasing lens weight, delivering products optimized for indoor-focused immersive content consumption.

This technological strategy is yielding market results. As of Q1 2025, RayNeo holds approximately 50% market share in China’s AR/AI smart glasses market, ranking first. Notably, the Air 3s Pro achieved the top sales position among XR products during the 618-shopping festival, solidifying the brand’s standing in China. Another Chinese AR specialist, XREAL, holds a lower market share than RayNeo domestically but differentiates itself with OST-based products like the XREAL One Pro. It focuses more on expanding into global markets like North America and Europe than on the Chinese domestic market.

Meta is concentrating on smartphone-complementary smart glasses that combine LCOS displays with cameras and AI assistants for functions like checking messages, taking photos, and voice commands. Apple has postponed the successor to Vision Pro, shifting its strategy to developing lightweight AI/AR glasses and accelerating the commercialization of smartphone-linked AR glasses. Google is realigning its strategy around AI-based real-time translation and search, preparing AR glasses integrated with an AI assistant. All three companies share a common direction: cultivating AR glasses as a core platform, positioning them as the next-generation interface beyond smartphones.

Comparison chart between RayNeo Air 4 Pro and Meta Ray-Ban Display — display type, optical structure, key functions, and market positioning (Source: UBI Research)

The AR glasses market is undergoing a restructuring driven by two key trends: AI-integrated wearable platforms and content-centric immersive experiences. In the medium to long term, AR glasses are expected to evolve into devices with the potential to replace smartphones as AI-integrated wearable platforms.

llustration of a user wearing AR glasses operating an AI-powered immersive interface — symbolizing next-generation wearable platforms (Source: Created by Gemini)

Created by Gemini

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

UBI Research’s Micro Display Report

Chart showing automotive OLED shipments and market shares with Porsche adopting curved OLED displays for premium EV models

Cumulative Automotive OLED Shipments Reach 2.7 Million Units in Q3 – Porsche Adopts Curved OLED in Its Premium EV

October 30, 2025/in Display, Focus on /by UBIResearchNet

The presence of OLED technology in the global automotive display market is expanding rapidly. According to UBI Research’s “Q4 Display Market Tracker,” shipments of automotive OLED displays reached approximately 2.5 million units in 2024, and the cumulative shipments as of Q3 2025 have already totaled around 2.7 million units.

By panel maker, Samsung Display maintained a dominant lead with 1.71 million units (64%), followed by BOE with 570,000 units (21%). LG Display and Ever Display accounted for 220,000 (8%) and 180,000 units (7%), respectively, continuing their expansion in the premium vehicle segment.

Quarterly shipment trends of automotive OLED displays comparing Samsung Display, BOE, LG Display, and EverDisplay (Source: UBI Research)

Quarterly Automotive OLED Display Shipments (Source: UBI Research)

Q1–Q3 2025 Automotive OLED shipment and market share by vendor — Samsung Display 64%, BOE 21%, LG Display 8%, EverDisplay 7% (Source: UBI Research)

Automotive OLED Shipments and Market Share, Q1–Q3 2025 (Source: UBI Research)

The growth of automotive OLED adoption has been driven by premium electric vehicle (EV) manufacturers. A notable example is Porsche’s upcoming Cayenne Electric, scheduled for launch at the end of this year, which will feature a large 42-inch curved OLED display. The display system consists of a 14.25-inch driver cluster, a 12.25-inch center information display (CID), and a 14.9-inch co-driver display (CDD).

The 12.25-inch curved center OLED is expected to be supplied by either LG Display or Samsung Display. Both companies have previously supplied P-OLED (Plastic OLED) curved displays for premium European brands such as Audi and Mercedes-Benz, demonstrating their technological reliability and strong capabilities in curved-panel manufacturing.

In contrast, the cluster and CDD OLED panels are likely to be provided by BOE. The Chinese panel maker began mass-producing OLED instrument clusters in 2024 and has been supplying them to Volkswagen Group, Porsche’s parent company, thereby accelerating its penetration into the global premium OEM supply chain.

OLED technology is increasingly replacing conventional LCD panels, establishing itself as a core enabler for design differentiation and enhanced user experience in premium vehicles. Its self-emissive nature allows for superior contrast ratios, deep blacks, and flexible curved form factors-features particularly valued in electric and luxury cars. Furthermore, OLED displays align well with next-generation Human-Machine Interface (HMI) trends, supporting multi-display layouts, curved user interfaces, and integrated digital cluster designs that enhance both aesthetics and functionality inside vehicles.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Automotive Display Technology and Industry Trends Analysis Report

Quarterly Small OLED Display Market Tracker Sample

Quarterly Medium & Large OLED Display Market Tracker Sample

Chemical structure and emission performance of double-borylation ν-DABNA OLED materials developed by Kyoto University and JNC

Kyoto University-JNC joint research team innovates next-generation deep blue OLED materials with new ‘(Double Borylation)’ technology

October 29, 2025/in Display, Focus on /by UBIResearchNet

A joint research team led by Professor Takuji Hatakeyama from the Department of Chemistry at Kyoto University, in collaboration with JNC Co., Ltd., has developed a novel ‘Double Borylation’ synthetic strategy and successfully realized a world-leading pure Deep Blue OLED emitting material. This achievement was published in the international journal Nature Communications (October 2025, DOI: 10.1038/s41467-025-63908-y) and is anticipated to be a core technology for next-generation displays such as high-resolution micro-OLEDs.

Among the three primary colors (RGB) for OLEDs, the ‘Deep Blue’ region is known to be the most challenging to achieve. This is because producing a deeper blue color leads to increasingly unstable charge recombination, resulting in reduced efficiency and shortened lifetime. To address this issue, Professor Hatakeyama’s research team proposed a novel ‘Double Borylation’ strategy. This involves selectively introducing two boron atoms into the multi-resonance (MR)-TADF luminescent skeleton, which is composed of boron (B) and nitrogen (N).

Schematic illustration of the double borylation reaction introducing two boron atoms into the ν-DABNA structure for OLED emitter design (Source: Nature Communications, 2025)

Double Borylation Reaction of ν-DABNA for OLED Emitters (Source: Nature Communications, 2025)

This process expands the molecule’s π (pi) resonance structure, increasing the electronic transition energy, strengthening the transition dipole moment, and reducing the singlet-triplet energy gap (ΔE_ST). As a result, it improved efficiency, color purity, and stability. The newly synthesized material ‘ν-DABNA-M-B-Mes’ exhibits a deep blue wavelength of 463 nm, surpassing the previously reported deep blue material ν-DABNA, and achieved the following performance:

Photoluminescence Quantum Efficiency (PLQY): 93%.
Emission half-width at half-maximum (FWHM): 16 nm (world’s smallest)
External Quantum Efficiency (EQE): 32% or better
Color coordinates (CIE y): 0.09 – close to NTSC standard blue (0.08)
Lifetime (based on LT80, 100 cd/m²): More than 1,000 hours

In addition, the Phosphor-Sensitized Fluorescence (PSF) structure, which is attracting attention as a fourth-generation hyperfluorescent material, achieved a low drive voltage (2.5 V), maintained efficiency (minimized roll-off), and a lifetime of LT₈₀ > 1,000 hours at a luminance of 100 cd/m².

Prof. Hatakeyama said that Double Borylation is not just a synthesis technique, but a strategic approach that changes the fundamental concept of OLED material design, and succeeds in improving color purity, efficiency, and lifetime, and is expected to be used in a variety of next-generation applications, including microOLEDs (OLEDoS) for AR-VR, ultra-high color purity smartphone and TV displays, automotive heads-up displays (HUDs), wearables, and transparent displays.

Device structure, emission spectrum (467 nm, FWHM 17 nm), and CIE coordinates (0.12, 0.12) of ν-DABNA-M-B-Mes OLED (Source: Nature Communications, 2025)

Emission Characteristics of ν-DABNA-M-B-Mes OLED (Source: Nature Communications, 2025)

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

OLED Emitting Material Market Tracker Sample

2025 OLED Emitting Materials Report Sample

China’s display industry accelerates OLED-centric restructuring – BOE accelerates technology and HKC enters the market

October 27, 2025/in Display, Focus on /by UBIResearchNet

China’s panel industry is accelerating its restructuring around OLED technology through large-scale investments. BOE and HKC are each stepping up efforts to enhance OLED technologies for smartphones and IT applications, while establishing dual production systems that encompass both LTPS and OLED, aiming to strengthen their positions in the global display market.

BOE (Source: BOE)

BOE – Diversifying Technology While Advancing Apple Certification

BOE, which is currently producing OLED panels for the iPhone 17 Pro, is also expected to obtain certification for the iPhone 17 standard model within this year. BOE’s Apple-dedicated module production consists of 26 lines, with each newly invested line approximately 400 meters long and costing about 300 million CNY. The total investment for the Mianyang (绵阳) plant, including both panel and module lines, is estimated at 55 billion CNY.

At the Chengdu B12 plant, R&D efforts are focused on next-generation processes such as COE (Color on Encapsulation), Black PDL (Positive Type), and MLA (Micro Lens Array). The current monthly capacity of B12 is about 30 K substrates, which is expected to increase to 40 K by year-end. COE applications are being evaluated primarily for general smartphone models, while Black PDL processes are planned to expand into IT panels. MLA products are currently being supplied at 3–5 K substrates per month, with BOE also securing high-refractive-index materials for the technology.

HKC display factory in China establishing dual LTPS and OLED production lines (Source: HKC)

HKC Factory (Source: HKC)

HKC – Diversifying Production Through Dual Investments in LCD and OLED

HKC is expanding its OLED investment through the new H7 project. Unlike previous projects, H7 is being executed under the corporate entity of the existing H4 Mianyang LCD plant rather than a newly established subsidiary—an arrangement linked to local government funding structures.

The project includes a 60 K used 6th-generation LTPS LCD line acquired from JDI and a new 32 K 6th-generation OLED ELEAP line (divided into 8 K + 24 K phases). Additionally, HKC is expanding its H4 IPS Photo process line and constructing a new Mini-LED factory with an investment of approximately 10 billion CNY. Through these projects, HKC is building a comprehensive display production system covering LCD, OLED, and Mini-LED technologies.

Strategic Transition in China’s Panel Industry

The initiatives of BOE and HKC mark not just an expansion of production capacity but a shift toward technology-driven competitiveness. With high-value OLED technologies such as COE and MLA gaining traction, and government-led capital structures supporting investment diversification, China’s display industry is transitioning from scale-driven growth to technology-driven competition.

UBI Research’s “China Trends Report” provides detailed information on BOE’s progress in developing panels for Apple, the progress of new technology development by panel manufacturers, the latest investment trends, panel shipment volumes and unit prices, and the materials supply chain. The “China Trends Report” is available on the UBI Research website.

Junho Kim, Analyst at UBI Research (alertriot@ubiresearch.com)

China Trends Report Inquiry

RayNeo Air 4 AR glasses featuring HDR10, Micro-OLED display by SEEYA, and collaboration with B&O for audio

Chinese company RayNeo released its new product, the RayNeo Air 4 glasses.

October 24, 2025/in Display, Focus on /by UBIResearchNet

RayNeo Air 4 and Air 4 Pro AR glasses product image and pricing details (Source: RayNeo)

RayNeo Air 4 Product Image (Source: RayNeo)

On October 23, consumer AR brand RayNeo held an autumn new product launch event and officially released its fourth-generation AR glasses, the ‘RayNeo Air 4 series’. The standard edition is priced at 1,599 yuan (approximately 320,000 KRW), while the Pro edition is priced at 1,699 yuan. Sales have already commenced on e-commerce platforms.

According to the introduction, it is the world’s first AR glasses for movie viewing supporting HDR10 displays, featuring AI dynamic HDR display with a peak brightness of up to 1200 nits. Equipped with the dedicated Vision4000 image quality chip, it enables conversion from SDR to HDR and supports 10-bit color display. Combined with a Micro-OLED display (SEEYA panel), they provide a viewing experience with a 120Hz refresh rate and a virtual 135-inch ultra-large screen. They were developed in collaboration with the high-end audio brand Bang & Olufsen (B&O) for the first time. The RayNeo Air 4 is expected to significantly elevate the overall audio-visual experience and solidify its position in the consumer AR glasses market.

This product was developed through close collaboration not only with Chinese OLEDoS display manufacturers (SEEYA) but also with overseas companies (B&O, Pixelworks) in terms of the supply chain. Chinese companies are injecting new vitality into the AR industry through continuous new product launches. With the proliferation of 5G technology and the rise of metaverse technology, the potential of the AR glasses market is enormous, so competition among companies is expected to intensify further.

Namdeog Kim, Senior Analyst at UBI Research(ndkim@ubiresearch.com)

UBI Research’s Micro Display Report

Chart showing quarterly tablet OLED shipments by UBI Research with QoQ and YoY growth trends in 2024–2025

Tablet OLED Demand Rebounds… Mid- to Large-Size OLED Shipments Up 11% in Q3 2025

October 24, 2025/in Display, Focus on /by UBIResearchNet

Quarterly OLED shipment trend for tablet PCs from 2024 to 2025, showing QoQ and YoY growth (Source: UBI Research)

Quarterly OLED Shipments for Tablet PCs (Source: UBI Research)

According to UBI Research’s Q4 Mid- to Large-Size OLED Display Market Tracker, the mid- to large-size OLED market in Q3 2025 rose 11% QoQ in shipments and 7.2% QoQ in revenue. This indicates that demand for mid- to large-size OLED panels is gradually recovering, exiting the slump that persisted since the second half of last year.

Within this segment, tablet PC OLED panels posted particularly strong growth. Q3 tablet OLED shipments increased 56% QoQ and 25.9% YoY, largely driven by the full-scale ramp of panel supply for Apple’s new iPad Pro. After a lull since Q3 last year, tablet OLED demand is rebounding quickly alongside the resumption of iPad Pro shipments.

By panel maker, Samsung Display supplied approximately 1.5 million OLED panels for tablets in the third quarter, while LG Display shipped about 1.3 million units. Among Samsung Display’s shipments, around 700,000 units were for the iPad Pro, whereas all of LG Display’s shipments were used exclusively in the iPad Pro. Both companies count Apple as a key client. In addition, Samsung Display solely supplies OLED panels for Samsung Electronics’ own Galaxy Tab S series.

Chinese panel makers are also increasing shipments of tablet OLEDs. Everdisplay (EDO) has been rapidly expanding its market share, recording 600,000–800,000 units per quarter since Q4 2024. BOE and Visionox are likewise supplying tablet OLED panels—albeit in smaller volumes—to Chinese device makers, steadily raising their output.

UBI Research’s Executive Vice President Chang-wook Han commented, “Today’s tablet OLED market is dominated by Apple, which supports the strong position of Korean panel makers. However, as OLED adoption expands beyond the iPad Pro to more affordable lineups such as iPad Air and iPad mini, Korean vendors could see their share pressured. At the same time, higher adoption among Chinese brands is expected to gradually lift the market share of Chinese panel makers.”

He added, “Amid these shifts, it remains to be seen whether Samsung Display and LG Display can maintain their technology lead and defend their market shares.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

Quarterly Small OLED Display Market Tracker Sample

Quarterly Medium & Large OLED Display Market Tracker Sample

TCL CSOT 8.6th generation inkjet OLED presentation showing precise RGB structure and printing accuracy from K-Display 2025

TCL CSOT Announces Early Start of 8.6Gen Printed OLED Production Line

October 22, 2025/in Display, Focus on /by UBIResearchNet

TCL CSOT inkjet OLED presentation slide showing printing accuracy and FMM OLED structure comparison — K-Display 2025 (Source: TCL CSOT)

TCL CSOT Inkjet OLED Presentation Slide at K-Display 2025 (Source: TCL CSOT)

TCL CSOT officially announced the commencement of construction for its 8.6-generation printed OLED display panel production line (T8 Project) in Guangzhou Province on October 21, 2025. This starts approximately one month ahead of the original schedule, with a total investment of 29.5 billion yuan (approximately 5.4 trillion won). This project represents the world’s first 8-generation printed OLED line, targeting the mid-sized application market for notebooks, monitors, and automotive displays. It is planned to have a production capacity of 45K sheets per month (based on 2290mm x 2620mm substrates). TCL CSOT is investing in the T8 line on the site adjacent to the existing Guangzhou T9 line. The T8 site was originally planned for conversion into a solar project, but that plan has been put on hold, and its use as an OLED production line site has been confirmed. This T8 line investment will proceed in two phases, with the first line being invested initially. Phase 1 will have a monthly substrate input capacity of 15K. Equipment installation is targeted for September 2026, with trial mass production scheduled for June 2027.

In response to the rapid growth of the mid-sized OLED market, major display companies are accelerating investments in 8.6-generation lines. TCL CSOT has chosen a differentiated approach with printed OLED, focusing on cost competitiveness and technological innovation. TCL CSOT’s printed OLED technology achieves material utilization exceeding 90%, significantly surpassing the 30% rate of vapor deposition methods, and reduces manufacturing costs by over 20%. This cost advantage is interpreted as a strategy to seize the ‘leadership in the mid-to-low-end market’ and popularize OLED. Furthermore, as the Chinese government tends to strictly review investment approvals for existing technologies like FMM, companies like Visionox (ViP) and TCL CSOT (inkjet) are proceeding with investments by applying new technologies.

According to UBI Research’s analysis, printed OLED still faces technical challenges.

Brightness and Lifespan: The printed OLED process has lower precision in stacking the organic layers that form pixels compared to the evaporation method. Consequently, there are concerns that it currently falls short of existing evaporation technology in achieving high brightness and ensuring device lifespan.
Tandem Structure: Another drawback is that applying Tandem (two-layer light-emitting structure) technology, essential for high efficiency and long lifespan, is more difficult than with the deposition method. TCL CSOT plans to introduce four printing equipment units, expected to be three HI/HT/RGB units and one Tandem unit. This equipment is predicted to be purchased from Panasonic. This demonstrates efforts to overcome technical challenges.

TCL Huaxing’s move toward printing technology is interpreted as an attempt to position itself as an ‘innovative force leading the market’ by targeting the mid-sized OLED market with new technology, rather than directly challenging deposition market giants like Samsung Display and BOE.

Printed OLEDs are expected to significantly lower the barrier to entry for the IT OLED market (notebooks, monitors, etc.) through groundbreaking cost reductions, thereby expanding the market pie. However, concerns also persist about whether the brightness and lifespan challenges inherent to the printing process can meet the stringent quality standards of large IT products. Attention is focused on whether TCL CSOT can successfully overcome these technical hurdles and become a game-changer in the mid-sized OLED market by 2027 through its ‘technology-cost-scale’ trinity strategy.

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

2025 Small OLED Display Annual Report Sample

2025 Mid-to-Large OLED Display Annual Report Sample

Apple LTPO+ OLED backplane compensation circuit structure showing oxide TFTs for both switching and driving

iPhone 18 with LTPO+: Intensifying Technology Race Among Panel Makers

October 21, 2025/in Display, Focus on /by UBIResearchNet

The iPhone 18 will feature a new type of OLED backplane technology called LTPO+. While existing LTPOs employed a hybrid structure using oxide semiconductors only for the switching TFT, LTPO+’s key feature is the switch to oxide TFTs for both the switching TFT and the driving TFT. This is believed to be Apple’s strategy to improve power efficiency in its next-generation OLED panels and to address brightness uniformity and image retention issues during extended use.

LTPO+ compensation circuit structure — Apple’s OLED backplane patent diagram (Source: Apple)

LTPO+ Compensation Circuit Patent (Source: Apple)

Conventional LTPS (low-temperature polycrystalline silicon)-based driving TFTs offer high mobility, making them advantageous for high-brightness operation. However, the numerous traps at grain boundaries result in high hysteresis and unstable current characteristics, making them prone to gradation errors and brightness unevenness over extended periods of use. In contrast, oxide TFTs boast low hysteresis and stable current characteristics, maintaining a constant current under constant gate voltage conditions. This reduces pixel-to-pixel current variation, improving brightness uniformity and color stability. Furthermore, residual charge accumulation is suppressed, reducing image retention.

Despite these advantages, many technical challenges remain for the application of oxide as a driving TFT. Oxide semiconductors have lower mobility than LTPS, making it difficult to secure sufficient driving current. This can lead to slower current response times at high brightness and refresh rates. Furthermore, ensuring stability under prolonged bias and thermal stress is essential. This is because electron trap accumulation during extended driving can lead to current reductions and subtle color shifts. Meanwhile, even in the LTPO+ structure, some circuit elements are still composed of LTPS. Since these LTPS elements are not as high-performance as the driving TFTs, securing cost-effective, low-cost LTPS manufacturing technology is crucial. Unlike high-quality driving LTPS, LTPS for peripheral circuits or sensing elements prioritizes yield, uniformity, and low-cost processes over high mobility. These process simplifications and cost-saving technologies enhance the competitiveness of LTPO+ mass production.

In other words, LTPO+ is a structure achieved through a balance between oxide and LTPS processes, with one key focus being high performance (oxide) and the other being low cost (LTPS).

From this perspective, the key challenges for oxide-driven TFTs can be summarized as four:

First, ensuring bias and thermal stress reliability – technology to suppress electrical degradation during long-term operation and minimize ΔVth (threshold voltage shift).

Second, integrating compensation circuits – designing a circuit-level compensation circuit to compensate for fluctuations in oxide device characteristics and ensure operational stability.

Third, securing large-area uniformity – a technology that minimizes current variations across the substrate to maintain luminance uniformity.

Fourth, appropriate subthreshold swing (SS) control – an excessively low SS can lead to sensitivity to threshold voltage variation and time variation (ΔVth), which can increase current dispersion. Therefore, SS optimization is required to balance power efficiency and operating stability.

Ultimately, the success of LTPO+ depends not only on the performance of the oxide driving TFT but also on the cost competitiveness of the auxiliary LTPS process. Apple will only be able to fully adopt LTPO+ for the iPhone 18 if it reaches target levels in mobility, reliability, uniformity, and manufacturing cost. The industry predicts that technological competition among existing iPhone panel suppliers will intensify, focusing on securing oxide TFT performance and developing low-cost LTPS processes. LTPO+ is expected to mark a new turning point for panel technology in the next-generation mobile OLED market.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

Quarterly Small OLED Display Market Tracker Sample

Quarterly Medium & Large OLED Display Market Tracker Sample

Samsung Electronics 114-inch Micro LED TV representing ultra-premium display market leadership

Diversifying Micro-LED Strategies – Samsung with Ultra-Premium, LG Electronics, Vistar with Market Diversification

October 20, 2025/in Display, Focus on /by UBIResearchNet

The global display industry is taking different strategic directions in the race to commercialize Micro-LED, the next generation of technology, and the evolution of Micro-LED is being realized not through “falling prices” but through “market diversification. While Samsung Electronics is strengthening its symbolic technology leadership in the ultra-premium TV market, LG Electronics and Vistar are simultaneously driving the technological advancement and application expansion of the Micro-LED industry by exploring new growth paths in the ProAV and industrial markets.

Samsung Electronics has positioned its Micro-LED TV lineup as a flagship lineup of ultra-high-priced products and maintains its technological superiority, focusing on ultra-large models such as 110-inch and 114-inch models that are fully self-luminous through the precision transfer process and RGB chip integrated structure. However, the company has not been able to achieve this technological feat. However, despite this technological perfection, prices remain in the hundreds of millions due to limitations in production unit cost and process yield.

Currently, Micro-LED TVs have a strong “technology showcase premium product” character in the consumer market and need time to become popular. Market experts diagnose that it will take at least three to five years for the demand for Micro-LED TVs to grow, and that the market will not be able to fully expand unless improvements in price accessibility and production efficiency are made in tandem.

In contrast, LG Electronics has a strategy to expand Micro-LED technology into the commercial and professional imaging market (ProAV). The recently announced MAGNIT ProAV series, with a diverse lineup including 0.78mm, 0.94mm, and 1.25mm pixel pitch, is aimed at high-luminance, high-precision video environments such as conference rooms, broadcast studios, and exhibition halls.

This is regarded as an attempt to get ahead of the B2B market, which has lower technical barriers to entry than consumer TVs and a shorter investment payback period. The fact that the pixel pitch has been reduced to less than 1mm is a signal that LG’s Micro-LED transfer and calibration technology has entered the stabilization stage, and the foundation is now in place for the full-scale commercialization of Micro-LED as a large-sized display for commercial indoor use. The foundation for the full-scale commercialization of Micro-LEDs as large-sized commercial indoor displays is now in place.

Meanwhile, China’s Vistar (a Visionox subsidiary) has strengthened its presence in the large-area market by announcing a prototype of a Seamless Wall up to 135 inches in size through a tile-type Micro-LED display based on a TFT backplane. matrix (TFT) drive to minimize brightness, color uniformity, and tile-to-tile boundaries. This is an example of Visionox extending the TFT process technology it has accumulated in OLED production to Micro-LED, setting a new growth axis for the high-precision B2B display area, including large control rooms, exhibition halls, and industrial control systems.

UBI Research noted that “Micro-LED is no longer just a technology for premium TVs, but has entered a stage where it can lead to actual sales in B2B environments such as professional video, exhibition, and industrial control,” and analyzed that “LG Electronics and Vistar’s moves signal that the range of applications for Micro-LED is expanding. The moves by LG Electronics and Vistar are a signal that the range of Micro-LED applications is expanding.”

Samsung 114-inch Micro LED TV — flagship product targeting the ultra-premium market (Source: Samsung Electronics)

Samsung 114-inch Micro LED TV (Source: Samsung Electronics)

LG MAGNIT ProAV Series — Micro LED display designed for commercial and professional AV markets (Source: LG Electronics)

LG MAGNIT ProAV Series (Source: LG Electronics)

Vistar 135-inch TFT-based Micro LED Seamless Display — prototype developed by Visionox subsidiary (Source: Vistar)

Vistar 135-inch TFT-based Micro LED Seamless Display (Source: Vistar)

Joohan Kim, Senior Analyst at UBI Research (joohanus@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

EMT (Eternal Material Technology), centered on the Hefei factory, is pushing forward business expansion in OLED emitters and PSPI.

October 17, 2025/in Display, Focus on /by UBIResearchNet

EMT company logo (Source: EMT)

The Chinese display materials company EMT is expanding its sales on two major axes: OLED emitters and LCD color-filter materials. This year, EMT’s total revenue is about ¥400 million (RMB), of which the organic emitter business accounts for about ¥200 million and the LCD color-filter RGB material business also accounts for about ¥200 million. Among the photoresists (PR) for color filters, currently only red materials are supplied to China Star Optoelectronics Technology (CSOT).

In the OLED business, low-temperature RGB materials for COE applications are under evaluation by Visionox, and the low-temperature OC materials are being OEM produced through LTC. These products are under evaluation at Visionox’s V3 line; once evaluation passes, EMT plans to manufacture them itself and transact under its own name.

In PSPI (photosensitive polyimide) as well, EMT has entered full-scale preparations for mass production. Around October, small-volume production is expected to begin on Visionox’s V1 line, replacing the existing volumes from Rousian (柔显). Then the horizontal expansion to the V2 and V3 lines is also planned.

In terms of factory operations, the Hefei factory has an annual PR production capacity of about 3,000 tons, but the current utilization rate is below 50%. Meanwhile, the Guan (Guan) factory has a production capacity of about 500 kg per month for emitters, which is planned to be transferred to the Hefei factory next year. Through this move, production efficiency will be improved and an integrated production system for materials will be strengthened.

Information on Chinese emitter and materials companies can be found in the China trends report by UBI Research.

Junho Kim, Analyst at UBI Research (alertriot@ubiresearch.com)

China Market Trend Report Inquiry

Comparison of Google Android XR, Apple Vision OS, and Meta smart glasses — Image created via sora

Big tech companies enter the race to lead the next generation of wearable platforms

October 16, 2025/in Display, Focus on /by UBIResearchNet

XR platform comparison showing Google Android XR, Apple Vision OS, and Meta smart glasses (Image created via sora)

XR platform competition among Google, Apple, and Meta (Image created via sora)

Global big tech companies are forming a full-scale competitive landscape in the next-generation wearable device market. Samsung Electronics plans to unveil its “Project Moohan” Galaxy XR headset this month. Samsung’s Galaxy XR is a high-performance headset based on Google’s Android XR platform, bringing a 4K micro OLED display (4,032 PPI, 29 million pixels) and a Qualcomm Snapdragon XR2+ Gen 2 processor. It has a lightweight design of 545 grams and a multimodal interface that integrates hand tracking, eye tracking, and voice recognition.

It will target the premium market with a higher resolution than Apple Vision Pro (23 million pixels) and better display quality than Meta Quest 3. Battery life is expected to be in line with competitors at 2 hours of normal use and 2.5 hours of video playback, and the price is expected to be around $1,800 (about $2.5 million).

Samsung has partnered with Google to build the One UI XR interface and secure major app ecosystems such as Chrome, YouTube, and Netflix. The initial production will be 100,000 units to test the market response before entering a full-scale mass production system.

Apple has temporarily halted development of its low-cost N100 (Vision Air) headset and reallocated resources to the AI smart glasses project, a strategic decision in response to the success of Meta’s Rayban and the rapid growth of the AI-powered smart glasses market.

Apple is developing two models of smart glasses. The first generation, codenamed N50, will be a display-less, iPhone-connected, audio-centric AI wearable that is expected to launch in 2027. The second-generation model will bring a display and compete directly with Meta Rayban, and development is being accelerated from the original 2028 plan.

Apple’s smart glasses are based on Vision OS, with a camera, microphone, health tracking, and a voice command interface with next-generation Siri AI at its core. It will also offer a wide range of frame options and colors, reinforcing its positioning as a fashion accessory.

Currently, the smart glasses market is dominated by Meta. The Meta-Rayban series has sold more than 3.5 million units cumulatively, with an 80% share of AI smart glasses. The recently unveiled Rayban Display model brings a full-color, high-resolution display that can display messages, photos, and other information.

In response, Google is strengthening its cooperation with Samsung with its Android XR platform and Gemini AI. Samsung will also release Project Coastal smart glasses in collaboration with Google and Gentlemonster early next year, making it a two-track headset and smart glasses strategy.

The future XR/smart glasses market is expected to be a three-way battle between the Android XR platform, Apple’s Vision OS XR platform, and Meta’s first-mover advantage. Each company’s ability to build ecosystems and differentiate user experience will be the key factors in determining market leadership.

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

UBI Research’s Micro Display Report

AI AR smart glasses Meta Ray-Ban Display showing growth of the global AR wearable market

The Competition in AI/AR Smart Glasses and the Advancement of Chinese companies in the Supply Chain Ecosystem

October 15, 2025/in Display, Focus on /by UBIResearchNet

Meta officially announced its new products at the Meta Connect 2025 event on the 18th of last month (the 17th in US time), and began launching the Meta Ray-Ban Display smart glasses—its first consumer glasses to bring a display—in the US at the end of September. Meta continues its strategy to dominate the AI/AR glasses market. According to a post by Meta CTO Andrew Bosworth on Threads on October 2nd, the Meta Ray-Ban Display smart glasses have nearly sold out in physical stores, and November reservations are also almost fully booked. He stated that the market response to the product has been stronger than expected, and the company is working hard to keep up.

Meta Ray-Ban Display AI AR smart glasses (Source: Meta)

Meta Ray-Ban Display Smart Glasses (Source: Meta)

Meanwhile, over a year after its launch, the Vision Pro has gradually faded into the background. According to external reports, last year’s total sales of the Vision Pro fell below one million units, significantly underperforming market expectations. Additionally, rumors have intensified that Apple has halted development of a low-cost Vision Pro model and is shifting its strategic focus entirely to smart glasses. The goal is to launch a product capable of directly competing with Meta’s Ray-Ban smart glasses, with the initial smart glasses launch target date reportedly moved up to 2026. This pivot signifies Apple’s recognition that ‘AI+AR’ devices hold promise as the next generation of mobile terminals.

Samsung is also collaborating with Google to develop the Project Moohan XR headset, and its smart glasses Haean may also be unveiled this year. China’s Alibaba company has also announced ‘Quark AI Glasses,’ reported to launch by the end of 2025. Companies like Xiaomi and Baidu are also entering the market one after another, continuously fueling market excitement. Furthermore, the rise and expanding market share of domestic Chinese AR glasses brands like XREAL, RayNeo, Rokid, and INMO are evident.

From the supply chain perspective of smart glasses, the mutual penetration of AI and AR technologies has created an industrial ecosystem. The role of Chinese companies within this ecosystem is also evolving. While gaps persist in advanced core areas, they are emerging as ecosystem participants beyond their traditional supply chain roles through vertical integration within companies and external technology collaborations. In essence, they are becoming key drivers in this new industry. For instance, in Meta’s Ray-Ban Display glasses, Chinese company Goertek handles manufacturing, and numerous Chinese component suppliers are involved in internal parts like LCoS displays, batteries, and camera modules. Indeed, at the recent CIOE 2025 optoelectronics exhibition held in Shenzhen, China, the strong showing of Chinese companies like JBD, Goeroptics, and Sunny Optical was evident in LEDoS panels and optical waveguide components applied to next-generation AR glasses products.

In summary, major tech companies like Meta, Apple, and Samsung have recently shown active movements in the AI/AR glasses sector, further strengthening the influence of AI+AR glasses as a field receiving high attention. Therefore, as the industry ecosystem enters a critical transition phase and growth period, companies across the industrial supply chain are expected to intensify competition while actively pursuing technological breakthroughs and collaborative ecosystem development. Amidst this, Chinese companies are making notable strides. Benefiting from the Chinese government’s support for strategic industries and the policy trend positioning AR/XR as a core element of the digital economy, domestic optical module, display, and component companies are actively participating in the AR/XR glasses ecosystem.

Namdeog Kim, Senior Analyst at UBI Research(ndkim@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

Hyundai Mobis rollable OLED display technology for Genesis GV90

The GV90’s Vehicle HMI Evolves with Rollable OLED

October 14, 2025/in Display, Focus on /by UBIResearchNet

The luxury car market is emerging as a new stage for display innovation. Rollable OLED displays are gaining attention as a key technology for achieving both minimalism and cutting-edge sensibilities in vehicle interiors, and major manufacturers such as Hyundai Mobis and Forvia are competing to apply this technology to luxury vehicles.

In China, this technology has already become a reality. Hongqi’s ultra-luxury sedan, the Guoya (aka Hongqi L1), features a 14.2-inch rollable OLED display developed by Visionox. This display is designed to be stored within the dashboard and unfolds upward when needed. When off, it is completely hidden, maximizing the sense of integration within the interior. While driving, it displays limited information, but when stationary, it expands to display navigation and entertainment functions full-screen. The Hongqi Guoya is an ultra-luxury sedan priced at approximately 1.4 million to 1.86 million yuan (approximately 250 million won), serving as a Chinese flagship model competing with the Mercedes-Maybach and Bentley Flying Spur. The inclusion of a rollable OLED display in this vehicle goes beyond a simple luxury strategy and is interpreted as an attempt by the Chinese automaker to secure technological leadership in the premium market through advanced display technology.

Similar trends are being detected in Korea. Hyundai Mobis filed a patent (US12422892B2) in 2021 for a “rollable display for vehicles,” which features a structure that allows the OLED panel to be rolled up or unfolded around a rotating roller within the housing. According to the patent, horizontal and vertical supports are arranged on the back of the display panel to prevent panel deformation due to vibration or touch pressure while driving. It also includes a wing-shaped support structure that ensures the entire panel remains flat when unfolded. In other words, it’s not simply a “rollable” technology that simply rolls up, but a structural design that ensures stable visibility and rigidity even in driving conditions.

Rollable OLED display structure for vehicles based on US12422892B2 patent

Rollable OLED Display Architecture (US12422892B2) (Source: Hyundai Mobis)

Hyundai Mobis unveiled an actual rollable OLED prototype based on this patented technology at CES 2024. The product can be expanded up to 30 inches and the screen can be adjusted to 1/3, 2/3, and full modes. When the ignition is turned off, it completely retracts and disappears into the dashboard, and its structure shows the screen only when needed, suggesting the concept of “the most luxurious display when it is invisible.” The installation space is only about 12 cm, allowing for a high degree of freedom in interior design, and it has achieved automotive QHD (2560×1440) picture quality. Hyundai Mobis is preparing for mass production, and Samsung Display and LG Display are known to be competing to supply the panels.

Hyundai Mobis rollable OLED display prototype for vehicles (Source: Hyundai Mobis)

The Genesis GV90 is being considered as a potential application for this technology. Hyundai Motor Group’s flagship electric SUV, the GV90, is attracting industry attention as a model likely to feature a rollable OLED display. Genesis’s reasons for considering a rollable display are clear. First, it aims to create a minimalist and luxurious interior by displaying digitalized driving information only when needed. Second, it has a functional purpose: the large screen can adjust its viewing area to avoid obstructing the driver’s view while driving. Third, it serves as a technological differentiation strategy to compete with global luxury brands. Being the world’s first “luxury SUV equipped with rollable OLED” could help Genesis narrow the gap with premium electrified models like the Mercedes-Benz EQS SUV and BMW iX.

Industry experts don’t view this trend as a simple design change. UBI Research Executive Vice President Changwook Han analyzed, “The application of rollable OLED to vehicles is not just a simple display innovation, but a technological evolution that will reorganize the paradigm of space design and user interface (UI).” He added, “The transition from large fixed screens to variable displays will emerge as an important option for premium vehicle interiors in the future.”

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Automotive Display Technology and Industry Trends Analysis Report

Q3 OLED Panel Shipments Surge with iPhone 17 Effect

OLED panel shipments surge in Q3, with Korean companies showing a clear recovery thanks to the iPhone 17 launch

October 2, 2025/in Display, Focus on /by UBIResearchNet

Bar chart of quarterly OLED panel shipments for smartphones in 2025

OLED panel shipments for smartphones by company in Q1–Q3 2025, (Source: UBI Research)

According to the “OLED Display Market Tracker,” published quarterly by UBI Research, Korean panel manufacturers saw a significant increase in smartphone and foldable phone panel shipments in the third quarter. This is the result of a rapid recovery from a temporary decline in the second quarter, a period of weak smartphone demand, driven by the popularity of the iPhone series and Samsung Electronics’ new products.

Samsung Display saw a surge in panel shipments for the iPhone 17 series and the Galaxy S25 FE in the third quarter, significantly boosting flexible OLED shipments that had stagnated in the second quarter. Rigid OLED shipments remained stable, maintaining similar levels to the previous quarter.

LG Display’s panel shipments surged from approximately 10.8 million units in the second quarter to approximately 20 million units in the third quarter, nearly doubling forecasts. LG Display supplies smartphone panels exclusively to Apple, so the launch of the iPhone 17 series was the primary driver of shipment growth. Shipments for the iPhone 17 Pro Max, in particular, accounted for approximately 60% of total shipments, the largest share.

Chinese panel makers also saw shipment growth. BOE shipped approximately 5.4 million units, and Visionox increased shipments by approximately 6.7 million units compared to the second quarter. BOE’s main customer was Oppo, followed by Apple and Huawei. With the gradual expansion of iPhone panel supply, Apple is likely to emerge as a key customer for BOE in the fourth quarter. Visionox shipped the most refurbished panels, followed by Honor, Xiaomi, and Vivo.

“Korean panel makers have shown a clear recovery in shipments since the third quarter, and Chinese companies are also continuing to grow,” said Changwook Han, Executive Vice President of UBI Research. “Securing stable shipments from Apple, their most important customer, will be a key challenge for Korean companies going forward. However, Samsung Display and LG Display have already established a solid presence in the global premium market, so we expect them to maintain their strategic advantage even amidst competition with BOE.”

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

Quarterly Small OLED Display Market Tracker Sample

Quarterly Medium & Large OLED Display Market Tracker Sample

Apple under-display IR and selfie camera design with OTI Lumionics solution

A Turning Point for Under-Display Camera Commercialization: A Close-Up Analysis of Apple’s 2026 Strategy (iPhone 18: IR Camera, Foldable: Selfie Camera… OTI Solutions Are Key)

October 1, 2025/in Display, Focus on /by UBIResearchNet

Apple plans to apply under-display camera technology differently depending on the device type in its next-generation iPhone lineup, slated for release in 2026. According to industry sources, the iPhone 18 series will feature an under-display infrared (IR) camera, while the foldable iPhone, scheduled for release at the same time, will feature an under-display selfie camera. This is not a simple design change; it is a strategic decision that takes into account the structural characteristics and user experience of each device.

Bar-type iPhones require a polarizer to suppress external light reflection and improve outdoor readability. However, polarizers absorb both visible and infrared light, significantly reducing transmittance. This structural limitation could directly lead to poor image quality and consumer dissatisfaction if the front-facing selfie camera is placed under the display. In contrast, IR cameras only require a 940nm near-infrared wavelength, and their goal is not high-quality photos, but accurate security authentication. Therefore, the iPhone 18 series will incorporate an under-display IR camera to simultaneously implement a full-screen design and Face ID security features. This is the most reasonable approach, minimizing image quality concerns while enhancing design perfection.

The foldable iPhone is a different story. To ensure thickness and flexibility, the device adopts a structure that eliminates the polarizer, replacing it with a color correction film and phase compensation material. This relatively increases display transmittance, facilitating the application of an under-display selfie camera. While camera performance degradation remains, this can be sufficiently addressed through AI-based image correction technology and ISP improvements. Samsung Electronics has already incorporated an under-display camera into the Galaxy Z Fold series, and Apple plans to leverage the same structural advantages to incorporate an under-display selfie camera into its foldable iPhone.

A key technology in this process is the Cathode Patterning Material (CPM) from Canada’s OTI Lumionics. This technology prevents the deposition of metal cathodes in specific areas during the OLED manufacturing process, forming a transparent opening. This technology facilitates the stable operation of the under-display camera and IR sensor. This solution, which maintains screen quality while ensuring the transmittance required by the camera and sensor, has already been verified by major global panel manufacturers, and Apple plans to incorporate it into the iPhone 18 series and foldable iPhone.

(a) Under-display camera, (b) Under-display IR camera structure – Source: OTI Lumionics

(a) UDC and (b) UDIR using a patterned cathode (Source: OTI Lumionics)

UBI Research Executive Vice President Changwook Han emphasized, “Apple’s choice to use an under-display IR camera in the bar type and an under-display selfie camera in the foldable is the result of choosing an optimized solution for each product structure,” and “2026 will be a turning point when Apple commercializes under-display technology in earnest.”

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 OLED Component and Materials Report

Featured image of Xiaomi 17 Pro Max highlighting TCL CSOT OLED panel supply

Xiaomi unveils flagship 17 Pro Max… TCL CSOT supplies Real RGB OLED panels and changes Red Host supplier

September 30, 2025/in Display, Focus on /by UBIResearchNet

Xiaomi 17 Pro Max unveiled with TCL CSOT Real RGB OLED panel (Source: Xiaomi)

On September 25th, Xiaomi unveiled three new smartphones, the Xiaomi 17 Series (Regular, Pro, and Pro Max). TCL CSOT has announced that it will exclusively supply all displays (front + back) of the Xiaomi 17 Pro and 17 Pro Max. The Pro Max’s main display is a 6.9-inch 1200×2608 high-resolution LTPO AMOLED panel with a 120Hz refresh rate and 3,500 nits of brightness. The rear is also a 2.9-inch LTPO AMOLED with a resolution of 596×976.

TCL CSOT has been working on developing a Real RGB structure using inkjet printing technology for a long time, so some speculated that the Xiaomi 17 Pro Max would also feature this technology. However, the Real RGB structure is actually realized through a Fine Metal Mask (FMM) process. This means that each pixel is composed of independent red, green, and blue subpixels, resulting in excellent clarity and accurate colors without any loss of resolution.

The diamond pixel structure, which Samsung Display primarily uses, has the advantages of higher luminous efficiency, more resistance to burn-in, and higher perceived resolution while reducing the number of physical pixels, which is advantageous for cost-effective high-resolution implementation. It also has strong patent protection, which has acted as a barrier to entry for other companies. However, it has been pointed out that the diamond pixel structure does not have the same number of R, G, and B subpixels, which can cause slight readability degradation or color bleeding, especially in small text or complex graphics.

TCL CSOT’s Real RGB structure appears to be a strategic move to improve visual quality, including color accuracy and text readability, and to avoid Samsung patents. TCL CSOT’s continued investment in inkjet printing Real RGB technology, while supplying FMM-based Real RGB for major products like the Xiaomi 17 Pro Max, suggests that TCL CSOT is actively exploring both technological paths. While inkjet printing has potential for large OLEDs and cost-effectiveness in the long term, there are still challenges to overcome, including technical difficulties, mass production, and reliability, before it can be applied to small, high-resolution products.

TCL CSOT’s new panel features a C10 set, the latest emissive layer stack structure, to improve luminescence efficiency and stability. A particularly noteworthy point is that among the core light-emitting materials, Lumilan’s material was applied instead of the DuPont product previously used for the Red Host. Founded in 2017, Lumilan is a Chinese company specializing in OLED materials, backed by China’s Jizhi Technology and Xiaomi Changjiang Industrial Fund. With a factory in Ningbo, Zhejiang Province, the company has been focusing on the R&D, production and sales of OLED emitting materials, and has strengthened its strategic partnership with Xiaomi, including the establishment of a joint research center in 2022. The Xiaomi 17 Pro Max application is the fruit of that cooperation. The replacement of one of the main core luminescent materials with a Chinese company’s product heralds a new change in the supply chain of the global display industry.

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

2025 OLED Emitting Materials Report Sample

OLED Emitting Material Market Tracker Sample

Micro-LED smartwatch market forecast, 2023–2030 (Source: UBI Research)

Micro-LED Smartwatch Market Set to Bloom… Projected to Grow to $1.2 Billion by 2030

September 26, 2025/in Display, Focus on /by UBIResearchNet

The world’s first Micro-LED smartwatch has arrived, sparking a new wave of change in the wearable display market. While Garmin’s Fenix 8 Micro-LED is hailed as a new milestone in wearable display technology, analysis suggests a full-scale market shift will still require time.

Micro-LED smartwatch market forecast chart, 2023–2030 (Source: UBI Research)

Micro-LED smartwatch market outlook, 2023–2030 (Source: UBI Research)

Garmin’s Challenge: Achievements and Limitations

The Garmin Fenix 8 Micro-LED features a 1.4-inch display with a peak brightness of 4,500 nits, delivering overwhelming visibility in outdoor environments compared to existing OLED smartwatches. It also supports satellite messaging, solving connectivity issues in remote locations. These features have earned it significant recognition in the outdoor-focused market. However, its battery life remains inferior to existing OLED smartwatches.

Joohan Kim, an analyst at UBI Research, attributes this to reduced external quantum efficiency (EQE) in miniaturized Micro-LED chips, unoptimized drive circuit designs, and power efficiency losses due to performance variations between chips. He emphasized that overcoming these technical limitations is essential for Micro-LED’s widespread adoption.

Premium Market Expansion: TAG Heuer and Samsung Display

TAG Heuer, a luxury watch brand with strong acceptance in the high-price market, is preparing to launch a Micro-LED smartwatch. UBI Research analyzes that TAG Heuer’s entry will solidify Micro-LED’s premium image.

Additionally, Samsung Display showcased a 6,000-nit-class watch-type Micro-LED display at K-Display 2025, demonstrating its technological prowess. This panel, achieved by precisely transferring approximately 700,000 RGB chips each under 30μm, achieves a resolution of 326 PPI. Its flexible structure with 4,000 nits brightness opens possibilities for diverse designs. It is particularly evaluated for simultaneously ensuring high brightness, low power consumption, and high reliability, thanks to the characteristics of its inorganic light-emitting structure that exhibits minimal brightness and color shift with viewing angle.

The Biggest Variable: Apple’s Entry Timing

Apple Watch is the world’s largest smartwatch platform, shipping over 40 million units annually. UBI Research predicts Apple is highly likely to adopt Micro-LED in its Apple Watch Ultra series by 2027-2028. If Apple fully enters the market, this could trigger supply chain investments and large-scale mass production, potentially becoming the decisive catalyst to propel Micro-LED into mainstream technology.

Market Outlook and Supply Chain Impact

Short-term barriers include high prices and low production capacity. The Garmin Fenix 8’s $1,999 price tag is approximately $700 higher than AMOLED models, indicating a focus on the premium market rather than general consumers.

However, the entry of TAG Heuer, Samsung Display, and Apple is expected to drive significant investment and technological advancement across the entire Micro-LED supply chain. This process is expected to create ripple effects across the entire display value chain, including chip manufacturers, transfer equipment makers, driver IC companies, and back-end packaging and module assembly firms.

Joohan Kim, an analyst at UBI Research, forecasts the Micro-LED smartwatch market will grow to approximately $1.2 billion by 2030. This indicates the potential to move beyond a mere niche market, disrupt the current OLED-centric landscape, and establish itself as the new standard for premium wearables.

Micro-LED smartwatches have only just taken their first steps. Garmin’s pioneering challenge, TAG Heuer’s symbolic entry, Samsung Display’s technological competitiveness, and Apple’s potential influence will collectively propel the market onto a full-fledged growth trajectory.

UBI Research emphasizes that the pace of resolving micro-LED technical challenges and supply chain restructuring over the next five years will be the core factors determining the wearable market’s competitive landscape.

Joohan Kim, Senior Analyst at UBI Research (joohanus@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

Automotive OLED display shipment forecast from 2023 to 2030, highlighting Mini LED, OLED, and Micro-LED trends (Source: UBI Research)

Automotive OLED displays to ship 3.8 million units this year, with growth expected to accelerate after 2030.

September 25, 2025/in Display, Focus on /by UBIResearchNet

The automotive OLED display market is expected to ship approximately 3.8 million units this year, with a projected compound annual growth rate (CAGR) of 24% through 2030. However, true growth is likely to begin after that point. While OLED has proven its technological prowess in the smartphone and TV markets, it is only just beginning to gain traction in automotive displays.

Automotive display shipment forecast 2023–2030, comparing Mini LED, OLED, and Micro-LED (Source: UBI Research)

Forecast of automotive display shipments by technology (2023–2030): Mini LED, OLED, Micro-LED (Source: UBI Research)

The strengths of automotive OLEDs are clear. Superior visual quality is cited as the most significant advantage. Deep black expression, low reflectivity, and superior color reproducibility improve visibility during driving. Furthermore, the recently highlighted tandem OLED structure significantly extends lifespan and ensures stable reliability even in high-temperature environments, making it ideal for automotive displays that require long-term use. Furthermore, flexible designs such as curved, foldable, slideable, and rollable panels allow for differentiated automotive interiors. This allows premium brands to strengthen their identity through OLED adoption. With major companies such as Samsung Display (SDC), BOE, Visionox, and TCL CSOT investing in 8th-generation OLED lines, production base expansion is also expected.

Current status of automotive OLED display adoption by major carmakers and models (Source: UBI Research)

Current adoption of automotive OLED displays – by carmaker and model (Source: UBI Research)

However, there are many challenges to overcome. Pricing is the biggest barrier. Currently, OLEDs are several times more expensive than LCDs, hindering mass adoption. The supply chain is also limited. Relying on a small number of companies, including LG Display, Samsung Display, and BOE makes securing a stable supply difficult. Furthermore, OLEDs only fully entered the automotive market around 2020, and sufficient long-term usage data has yet to be collected. Automotive displays must operate reliably for 10 to 15 years in harsh environments, making durability verification essential.

Due to these limitations, automakers are strategically gradually expanding OLED adoption. They are primarily being used in premium electric vehicles and flagship models, with widespread adoption likely after 2030. While limited growth is expected until 2030, a full-scale leap forward is expected thereafter, driven by cost reductions, the establishment of mass production systems, and the accumulation of reliability data. If OLED can deliver differentiated value in the automotive display market, growth rates beyond 2030 are likely to exceed current projections.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Automotive Display Technology and Industry Trends Analysis Report

Meta unveils Ray-Ban Display LCoS smart glasses and presents PIC-based LCoS research at SID 2025

Meta unveils ‘Ray-Ban Display’ smart glasses with LCoS, following up with a photonic integrated circuit (PIC)-based LCoS at SID 2025

September 24, 2025/in Display, Focus on /by UBIResearchNet

At Meta Connect 2025 on Sept. 18 (local 17), Meta announced its first display-bringing consumer smart glasses, the Meta Ray-Ban Display. The product is an intermediate step between the existing Ray-Ban AI glasses and the Orion AR glasses unveiled last year and will be available in the U.S. market later this month.

The new glasses feature a monocular display at the bottom of the right lens, which the company says was designed with practical factors such as price and battery life in mind. The display features OmniVision’s single-panel full-color LCoS, with a 600×600 resolution, 42 PPD, 20° monocular field of view, and up to 5,000 nits of brightness. Combined with Lumus’ Waveguide, it delivers a crisp visual experience even outdoors. These specifications fulfill the requirements of an informational AR device (20-35° FoV, high brightness, low power) and provide excellent visibility, especially in outdoor environments. Meta’s choice of LCoS over green LEDoS was a strategic decision based on technology maturity, power efficiency, and the ability to implement full color.

At SID 2025, Meta Reality Labs also announced its work on a photonic integrated circuit (PIC)-based ultra-compact laser microdisplay. The technology offered the possibility of shrinking AR light engines to less than 1㎤, demonstrating a 50-degree viewing angle and high color uniformity. Despite the advantages of mature technology and competitive pricing, LCoS has been limited by the need for bulky optical modules. PICs replace traditional polarizing beamsplitters (PBSs), focusing lenses, and dichroic mirrors by implementing core optical functions such as light gathering, color separation, and polarization control on a chip. PIC-based laser lighting has great potential to scale as a platform for next-generation display technologies. It remains to be seen if the Meta Ray-Ban Display utilizes PICs.

LEDoS is not expected to be fully competitive until 2028 or later, and until then, full-color LCoS is likely to be the key solution for the AR glasses market. OmniVision, as well as Himax Display, Avegant, and Raontec, are working on the next generation of high-brightness, high-contrast LCoS engines, which will make them even more competitive in the near term.

The significance of this announcement is that Meta simultaneously unveiled OmniVision LCoS in commercial products and PIC-based ultra-compact laser microdisplays in research achievements. This demonstrates that the next generation of AR displays is rapidly evolving around the three pillars of miniaturization, efficiency, and quality, and is expected to accelerate the growth of the AR industry ecosystem.

Comparison of conventional LCoS projector and PIC-based LCoS presented at SID 2025 (Source: SID 2025 Digest)

Comparison of conventional LCoS and PIC-based LCoS structure (Source: SID 2025 Digest)

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

UBI Research’s Micro Display Report

[BOE IPC 2025] BOE, 17inch Rollable Portable Device

September 23, 2025/in Video /by UBIResearchNet

[BOE IPC 2025] BOE, 17inch AI Rollable Integrated Solution

September 23, 2025/in Video /by UBIResearchNet

BOE unveiled a 10.18-inch triple fold OLED panel exclusively for Huawei at IPC 2025 (Source: UBI Research)

BOE Unveils 10.18-inch Triple-Fold Panel at IPC 2025…Strengthens Market Strategy with Exclusive Supply to Huawei

September 23, 2025/in Display, Focus on /by UBIResearchNet

BOE’s 10.18-inch triple fold OLED panel showcased at IPC 2025 (Source: UBI Research)

Triple fold OLED panel unveiled at BOE IPC 2025 (Source: UBI Research)

BOE showcased a 10.18-inch triple-fold panel for foldable smartphones at its IPC (International Partner Conference) 2025. The panel has already been applied to Huawei’s Mate XT Ultimate and is confirmed to be adopted in the successor model Mate XTs Ultimate, which is scheduled for release at the end of September.

Earlier in August, at DIC 2025 (Display Innovation China), BOE did not exhibit the triple-fold panel. BOE’s decision not to unveil the panel at DIC, a public exhibition that highlights the latest display technologies across the industry, but instead to present it exclusively at IPC 2025, is interpreted as a strategic choice. While DIC serves as a stage for industry-wide technology sharing, IPC is a platform where BOE emphasizes its differentiated technologies and roadmap directly to global partners and clients. By selectively showcasing the triple-fold OLED panel at its own event, BOE sought to reinforce its brand image and highlight its leadership in the market with a product that requires high levels of technical maturity and reliability.

The triple-fold panel exhibited by BOE features a resolution of 2232×3184 and supports a variable refresh rate ranging from 1Hz to 90Hz. Structurally, it achieves an external folding radius of R3.8mm and an internal folding radius of R1.5mm, enabling a design that can fold three times.

Reliability tests confirmed durability of over 100,000 cycles at room temperature, 20,000 cycles under low temperatures, and more than 100,000 cycles in high-temperature and high-humidity environments. In addition, BOE applied a 10-inch UTG (Ultra Thin Glass) to balance mechanical strength and transparency, and reinforced durability by adopting a “Bamboo Book structure,” which places adhesive at the edges of the folding area.

Through this exhibition, BOE demonstrated its foldable display capabilities, differentiating itself from other Chinese OLED panel makers such as Visionox and Tianma. The triple-fold panel requires a combination of complex technologies, including structural design, reliability assurance, and advanced materials, making it a symbolic case that underscores its commercial potential. With this move, BOE is not only strengthening its technological competitiveness within China’s display industry but also reinforcing its independence and leadership in the global market.

Junho Kim, Analyst at UBI Research (alertriot@ubiresearch.com)

China Market Trend Report Inquiry

Meta Ray-Ban Display AI/AR Glasses at Connect 2025

Meta Announced New Products: Meta Ray-Ban Display AI/AR Glasses, Evolving Beyond the Original Ray-Ban AI Glasses

September 19, 2025/in Display, Focus on /by UBIResearchNet

Meta held its Meta Connect 2025 event on the 18th (U.S. time: 17th) and officially announced several new products. Meta signaled a smart glasses boom, confirming its first consumer smart glasses with a display will launch in the U.S. later this month. Named ‘Meta Ray-Ban Display’, the glasses represent a midpoint product between the existing Ray-Ban AI glasses and Meta’s Orion AR glasses unveiled at last year’s Connect conference. They feature a ‘monocular panel’ positioned at the lower right corner of the right lens. The choice of a single monocular display appears driven by issues like cost and wearing time, and it requires pairing with a smartphone app.

Meta Ray-Ban Display AI/AR smart glasses unveiled at Connect 2025 (Source: Meta)

Meta Ray-Ban Display AI/AR smart glasses (Source: Meta)

These glasses feature a camera, multiple microphones, and speakers, enabling users to command the Meta AI voice assistant to take photos, record videos, play music, and more. The compact display provides functions such as notifications, turn-by-turn navigation, and real-time translation. The core display component utilizes an LCoS single-chip full-color microdisplay. Regarding the optical waveguide, it is known to utilize Arrayed Waveguide Grating (AWG) technology licensed from Lumus. The wristband, based on surface electromyography (sEMG) technology, is the industry’s first product targeting the consumer market. The sEMG technology collects bioelectric signals from the wrist area via multiple electrodes embedded in the bracelet. It then uses algorithms to recognize these signals and convert them into corresponding gesture commands. “It’s the first smart glasses integrating a high-resolution display and Meta’s sEMG wristband while maintaining Ray-Ban’s signature design,” the company emphasized. Meta does not sell this wristband separately; it is sold as a set with the Ray-Ban Meta Display. The price for the AR glasses and sEMG wristband set unveiled by Meta is $799.

Meta officially unveiled five key new hardware products at this event. These include Meta’s first pair of AR glasses, three pairs of AI glasses without displays, and one electromyography (EMG) wristband based on sEMG technology.

Meta Connect 2025 lineup featuring Ray-Ban Display, AI glasses, AR glasses, and sEMG wristband (Source: Meta)

New product lineup unveiled at Meta Connect 2025 (Source: Meta)

Meta remains optimistic about the AI glasses market and continues its strategy to dominate the market. The social media company continues to promote AI-based wearable devices as the next-generation core technology following smartphones, and competition among companies is expected to intensify further.

Namdeog Kim, Senior Analyst at UBI Research(ndkim@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

BOE OLEDoS AR/VR Microdisplay at IPC 2025

BOE Establishes Microdisplay Development Infrastructure in Beijing… Unveils a Range of AR/VR Products and Roadmap at the 2025 BOE IPC

September 19, 2025/in Display, Focus on /by UBIResearchNet

AR glasses with 0.49-inch 4496ppi OLEDoS displayed at BOE IPC 2025 (Source: BOE)

0.49-inch 4496ppi OLEDoS AR glasses unveiled at BOE IPC 2025 (Source: BOE)

BOE will convert the clean room of its fifth-generation B1 LCD line in Beijing, China, to create an OLEDoS (silicon-based OLED) production infrastructure. The investment will be funded by the Beijing B20 base and will utilize existing equipment and infrastructure to shorten process validation and yield ramp-up time. This is not a simple expansion, but rather a strategy to internalize silicon microdisplay in Beijing and secure an early mass production system.

BOE unveiled its microdisplay roadmap and new products at the 2025 International Partner Conference (IPC) and related events. BOE demonstrated its technology and commercialization commitment to next-generation applications such as high-resolution AR/VR devices, and BOE will focus its R&D and investment on high-resolution LCDs of 2,000 ppi and above, as well as LEDoS and OLEDoS. In addition, the company plans to establish a new microdisplay production base in Beijing and to secure technology independence by shifting from relying on external design houses to developing its own silicon (Si) backplane technology.

BOE has also reorganized its portfolio by market segment. The premium market will be served by LEDoS and OLEDoS, while the mid-range market will be served by developing and producing AMOLED panels for VR at its Chongqing base. For the entry-level market, a 2,000 ppi LTPS-LCD microdisplay line will be launched at Beijing B20 to enhance cost competitiveness and volume responsiveness. Separately, the transition to MLED backplanes is underway at the Ordos B6 line. The plan is to leverage Gen 5.5 assets to improve the uniformity and reliability of key processes such as sputtering-based metal-electrode thin-film formation, and to advance process maturity by optimizing low-resistance wiring and contact characteristics required for large-area operation.

BOE’s move is likely to change the competitive landscape with Sony, Samsung Display, and others in the AR/VR market. In-house development of the silicon backplane is expected to speed up product launches by shortening the feedback loop for design changes, performance improvements, and power optimization.

The infrastructure shift to Beijing is also expected to enhance supply chain stability and customization responsiveness. By consolidating design, optics, software, and solutions capabilities in Beijing, the plan is to reduce lead times for customization and product generation transitions.

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

UBI Research’s Micro Display Report

OLED emitting material market share by nation, Korea leading overall while China rises in smartphones

OLED Emitting Material Market Landscape Shifts… Korea Maintains Overall Lead While China Advances in Smartphones

September 18, 2025/in Display, Focus on /by UBIResearchNet

OLED emitting material market share by nation, comparison of Korea and China (Source: UBI Research)

OLED emitting material market share trends by nation (Source: UBI Research)

According to the Q3 Emitting Material Market Tracker recently published by UBI Research, Korean panel makers maintained their lead over Chinese competitors in total OLED emitting material purchases in the first half of 2025. Korean panel makers purchased approximately 36.7 tons, accounting for 59.9% of the total, while Chinese panel makers purchased 24.6 tons, representing 40.1%. By quarter, Korea recorded 18.6 tons versus China’s 12.8 tons in Q1 2025, and 18.1 tons versus 11.8 tons in Q2, continuing a stable lead.

While Korea continues to dominate the overall OLED emitting material market, the smartphone segment shows a different trend. Since 2025, Chinese panel makers have consistently exceeded 50% market share on a quarterly basis, surpassing Korea in the first-half total as well. This indicates that although Korea remains ahead in the overall OLED emitting material market, China’s share is steadily expanding in smartphones, a core application segment. Backed by its strong domestic demand, China has rapidly increased shipments, suggesting that the balance between the two countries is gradually shifting in the medium to long term.

By company, Samsung Display accounted for about 40% of the total OLED emitting material purchases, maintaining the largest share, followed by LG Display, BOE, and Tianma. In contrast, in the smartphone OLED emitting material market, BOE closely followed Samsung Display, with Tianma, TCL CSOT, and LG Display trailing behind. Thus, while Korean panel makers still demonstrate clear strength in the overall market, Chinese panel makers are making notable strides in the smartphone sector.

UBI Research analyst Noh Chang-ho stated, “Although Korea has been overtaken by China in the smartphone OLED emitting material market, Samsung Display and LG Display remain ahead in the overall OLED market, supplying IT panels, QD-OLED, and WOLED,” adding, “However, as Chinese panel makers expand shipments of smartphones and foldables, along with increasing IT OLED production, the gap between Korea and China in the emitting material market is narrowing rapidly.”

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

OLED Emitting Material Market Tracker Sample

Samsung Display Unveils New Automotive OLED Brand, ‘DRIVE™’ at IAA Mobility 2025

September 18, 2025/in Display, Focus on /by UBIResearchNet

Samsung Display’s OLED digital cockpit concept showcased at IAA Mobility 2025 (Source: Samsung Display)

Samsung Display unveils digital cockpit for future vehicles at IAA Mobility 2025 (Source: Samsung Display)

Samsung Display unveiled its next-generation automotive OLED technology and its new automotive OLED brand, “DRIVE™,” at IAA Mobility 2025, the world’s largest mobility exhibition held in Munich, Germany. As the only global panel manufacturer to participate, Samsung Display used this exhibition to accelerate its strategy to expand into the automotive display market, highlighting the design flexibility and differentiated image quality of its automotive OLED displays. Samsung Display unveiled a digital cockpit that incorporates OLED across all touchpoints for both driver and passengers. The driver’s seat features a 10.25-inch moving OLED cluster, an innovative design that functions as a dashboard during driving and hides beneath the dashboard when parked. A large 34-inch OLED display is positioned in front of the passenger seat. 14.5-inch and 13.8-inch OLED panels can be combined using multi-lamination technology to form a single large screen or two independent displays. Samsung Display’s “Flex Magic Pixel” technology blocks passenger content from the driver’s seat, enhancing driving safety. A 14.4-inch L-shaped flexible OLED panel is featured in the center fascia, allowing intuitive control of vehicle settings and the air conditioning system. A 9.4-inch circular OLED for rear-seat passengers and a 30-inch rooftop display were also unveiled, demonstrating OLED solutions that encompass the entire interior of the vehicle.

Samsung Display unveiled its first rigid OLED-based Off-The-Shelf (OTS) solution at this exhibition. With a total of seven standardized product lines ranging from 7 inches to 17 inches, the company aims to enable customers to quickly implement desired sizes, reducing development costs and time while also securing price competitiveness. Samsung Display also demonstrated its ability to meet the demand for large-screen displays in automobiles by demonstrating multi-lamination technology, which combines multiple OLED panels to create a single, large screen. Under the theme of “Upgrade to OLED,” Samsung Display highlighted the advantages of OLED over mini LED. The company showcased a rectangular mini LED cluster, a curved OLED cluster that can be molded into a curve, and a curved OLED cluster that maximizes immersion, highlighting design freedom. Visitors were also able to experience firsthand the display’s image quality advantages, such as true black, high contrast, and excellent outdoor visibility, essential for safe driving.

Samsung Display also unveiled a concept design for a future vehicle, created in collaboration with French designer Alban Lehaye. Using rollable, foldable, and stretchable OLEDs, the company proposed a V-shaped outfolding roof display, an extendable CID, and a flexible L-shaped panel, emphasizing the infinite expandability of OLED. A highlight of the exhibition was the debut of its new automotive OLED brand, “DRIVE™,” which embodies Samsung Display’s five core values: design differentiation, robust reliability, intelligent safety, visual excellence, and expandability. Lee Ju-hyung, Executive Vice President and Head of the Small and Medium Business Division at Samsung Display, stated, “OLED is a display optimized for the digital platform of the Software Defined Vehicle (SDV) era. Together with global customers, we will promote the differentiated value of automotive OLEDs through the DRIVE™ brand and strengthen our market leadership.”

Samsung Display recently signed a contract with Mercedes-Benz to exclusively supply automotive AMOLEDs for the 2028 Maybach S-Class. Negotiations are also reportedly underway with global electric vehicle manufacturers such as Tesla and BYD. Samsung Display’s automotive OLED shipments are projected to reach approximately 1.17 million units in the first half of 2025, and the IAA Mobility 2025 exhibition is expected to accelerate its global market share expansion.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Automotive Display Technology and Industry Trends Analysis Report

SIDTEK to build Micro-OLED production site in Nanchong with mass production set for 2027

SIDTEK to Establish Micro-OLED Production Base in Nanchong, Mass Production Set for 2027

September 17, 2025/in Display, Focus on /by UBIResearchNet

SIDTEK’s Micro-OLED investment roadmap presented at K-Display Business Forum 2025 (Source: UBI Research)

SIDTEK presenting its Micro-OLED investment roadmap at K-Display Business Forum 2025 (Source: UBI Research)

Chinese Micro-OLED specialist SIDTEK is moving forward with a new production base investment in Nanchong, Sichuan Province. The company aims to complete the main production building by the end of 2025, initiate pilot production by late 2026, and enter full-scale mass production in 2027.

The project is being supported by a 150 million RMB investment from the Sichuan provincial government. SIDTEK already operates 8-inch and 12-inch Micro-OLED production lines in Wuhu, Anhui Province. With the addition of the Nanchong facility, the company is diversifying its manufacturing footprint and establishing a stronger foundation to meet the growing global demand.

SIDTEK has made high-resolution OLEDoS (OLED on Silicon) displays for AR, VR, and next-generation XR devices its core business. Earlier this year, the company presented its OLEDoS mass production roadmap and vertical integration manufacturing strategy at the K-Display Business Forum, underscoring its technological competitiveness.

The Nanchong plant will become SIDTEK’s third major production base, and once fully operational, it is expected to strengthen China’s position in the global Micro-OLED supply chain.

Junho Kim, Analyst at UBI Research (alertriot@ubiresearch.com)

China Market Trend Report Inquiry

Sony Honda Mobility to integrate Micro LED media bar into Afeela EV in 2026

Sony Honda Mobility to Implement Micro-LED Media Bar in Afeela by 2026… New Revenue Strategy Combining Subscription Models

September 17, 2025/in Display, Focus on /by UBIResearchNet

Sony Honda Mobility (SHM) will be incorporating a micro-LED-based Media Bar into its Afeela electric vehicle, slated for release in 2026. The Media Bar, a display mounted on the front of the vehicle, can display a variety of information, including charging status, weather, welcome messages, and driving modes. It also offers customized communication features through animations and themes. It is considered a new experiment in the automotive industry, as it goes beyond a simple instrument panel or infotainment screen to visually express the vehicle’s “emotions and personality.”

Micro-LED media bar on the front of Sony Honda Mobility’s Afeela EV (Source: Sony Honda Mobility)

Afeela EV front view with Micro-LED media bar (Source: Sony Honda Mobility)

The problem lies in manufacturing costs. Currently, the production cost of micro-LEDs is nearly ten times higher than the automotive industry’s expectations. Even smartwatches and ultra-small displays are still prohibitively expensive to commercialize, and modules in the tens of inches required for vehicle fronts are even more expensive. Nevertheless, SHM’s decision to adopt micro-LEDs for the Afleea stems from strategic considerations. First, micro-LEDs are superior to conventional OLEDs and LCDs in terms of high brightness, durability, transparency, and design flexibility. They can deliver clear information even in outdoor driving conditions, and their long lifespan makes them ideal for exterior vehicle displays. The technological symbolism is also significant. By combining Sony’s display technology with Honda’s automotive brand image, the company aims to position the Afleea as a differentiated premium electric vehicle.

A more fundamental reason lies in its connection to the software subscription business. The automotive industry has recently evolved into a software-defined vehicle (SDV), offering driver assistance systems, infotainment, navigation, and connectivity features on a subscription basis. BMW, GM, Ford, and Tesla are already building new revenue models by converting some features to monthly subscriptions, and the global market is experiencing double-digit annual growth. SHM also plans to offer Afleea’s infotainment and driver assistance software as a subscription service, and by linking it with Media Bar, it aims to offer a differentiated subscription experience.

For example, Media Bar themes and animations can be expanded beyond basic functionality through a premium subscription model. Seasonal themes, brand-affiliated content, personalized designs, and social network integrations offer ongoing value for users. As the vehicle’s exterior itself becomes a means of communication, a new revenue model of “vehicle software subscription + Media Bar content subscription” becomes possible. This structure can offset the initial burden of implementing expensive micro-LEDs in the long term. In other words, it goes beyond hardware investment and enables ongoing service revenue generation based on this technology.

While the automotive industry has historically generated most of its revenue at the time of vehicle sales, the convergence of hardware, software, and services will become key in generating long-term revenue. SHM’s bold adoption of a micro-LED media bar in the Afleea is not simply a show of technology, but rather a strategic move to secure a new business model combined with software subscriptions. It reflects their confidence that, despite the high hardware investment and risk involved, they can secure profitability in the long term by combining it with subscription services.

When the Afleea hits the market in 2026, consumers will not simply be presented with an electric vehicle, but a new mobility platform offering a personalized, subscription-based display experience. This is likely to serve as a key benchmark for other automakers. It remains to be seen whether SHM’s decision will catalyze the expansion of subscription models in the automotive industry, despite the high cost structure.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Automotive Display Technology and Industry Trends Analysis Report

ams OSRAM unveils ALIYOS prototype interior display at Detroit exhibition

ams OSRAM unveils ALIYOS™ prototype at Detroit trade show, highlighting new potential applications for automotive interior displays

September 16, 2025/in Display, Focus on /by UBIResearchNet

ams OSRAM, a global leader in automotive lighting and optical semiconductors, has recently expanded its scope beyond simple light source supply to include automotive interior displays and smart surface solutions. The company unveiled its next-generation interior display concept, ALIYOS™ technology, and showcased a prototype at the Vehicle Display Interface exhibition and conference held in Detroit, USA, on September 9th and 10th.

ms OSRAM’s ALIYOS™ demonstrator with multiple foil designs and integration methods (Source: ams OSRAM)

ams OSRAM ALIYOS™ interior display prototype (Source: ams OSRAM)

ALIYOS™ is an ultra-thin LED-on-foil technology that integrates Mini LEDs onto a transparent, flexible foil. This new display solution enables the display of hidden icons and symbols behind a variety of automotive interior materials. In this demonstration, a 256-segment matrix was placed behind a wood panel to display information, such as communication icons. The bright, clear symbols, while still retaining the wood grain and texture, blended seamlessly with the wood interior. When applied behind fabric, the light diffusion was more uniform than that of wood, allowing the icons to be displayed evenly. With a luminance of approximately 250 cd/m², the system demonstrated sufficient visibility even in a vehicle environment. Furthermore, function icons, such as the start button and warning signs, were hidden behind the same wood, demonstrating the potential for a premium interface that only appears when needed.

One of ALIYOS™’s most notable features is its display expansion capability, which seamlessly connects high-resolution LCD content with a low-resolution LED matrix by placing the foil matrix next to a conventional LCD screen. This method simultaneously achieves a black panel effect and brightness efficiency through seamless, borderless transitions. Furthermore, it allows for overlapping different symbols in the same location, or even multi-color and animation effects, providing an interface that responds instantly to changing situations. When applied to transparent areas, it creates a floating visual effect, and it can also be manufactured as a thin, standalone HMI module, maximizing freedom in vehicle interior design.

ams OSRAM’s display of this prototype goes beyond simply demonstrating the technology. It’s a strategic move to demonstrate to automakers and tier 1 suppliers the practical feasibility of its technology and demonstrate its ability to address design trends such as black panels, hidden-until-lit interfaces, and integration with natural materials—all of which are difficult to achieve with existing display technologies. Through this initiative, ams OSRAM demonstrates its commitment to becoming a key partner in automotive interior displays, extending beyond its role as an optical semiconductor company.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Automotive Display Technology and Industry Trends Analysis Report

JBD and Chinese companies unveil Micro-LED AR/AI glasses and optical solutions at CIOE 2025

Accelerating the Advancement of Chinese Companies’ Technology and Supply Chain in Micro-LED Displays and Optical Solutions for AR/AI Glasses

September 15, 2025/in Display, Focus on /by UBIResearchNet

The 26th China International Optoelectronic Expo (CIOE) was held at the Shenzhen International Convention Center on September 10, 2025. At this exhibition, new Micro-LED-based AR products from companies like JBD and Goeroptics were prominently unveiled.

JBD’s ‘Hummingbird II’ Micro-LED color light engine and AR glasses (Source: UBI Research)

JBD’s showcased ‘Hummingbird II’ color light engine and AR glasses (Source: UBI Research)

AR display image as seen through JBD’s ‘Hummingbird II’ light engine (Source: UBI Research)

AR display as viewed through the Hummingbird II light engine (Source: UBI Research)

JBD showcased its latest products, including the Micro-LED 0.1-inch micro display and the ‘Hummingbird II’ color light engine. It achieved an ultra-compact size of 0.2cc and an ultra-lightweight of 0.5g through its X-Cube structure. Innovision exhibited a development sample with a 2.5 mm pixel size and 0.06-inch display. Micro-LED display sizes are progressively shrinking from 0.13 inches to 0.1 inches, and further to 0.06 inches. Resolve introduced a light engine equipped with a 0.13-inch PowerMatch1 full-color Micro-LED display. The engine’s volume is only 0.18cc, and its weight is just 0.5g, enabling lighter AR glasses.

Chinese companies also showcased advanced new products in AR glasses optical technology at this exhibition. Goeroptics unveiled new AR/VR optical products. They drew significant attention with diverse products ranging from silicon carbide etched waveguides to ultra-compact optical modules for full-color AR glasses and monocular 4K VR/MR pancake solutions. Utilizing Micro-LED Full color (X-cube) and silicon carbide etched waveguide technology, they achieved a 30° field of view (FOV) and a weight of 4g (see photo below).

AR glasses with SiC waveguide exhibited by Goeroptics (Source: UBI Research)

Goeroptics’ exhibited AR glasses with SiC waveguide (Source: UBI Research)

Specifications of Goeroptics AR glasses with Micro-LED and waveguide (Source: UBI Research)

Specification sheet of Goeroptics exhibited AR glasses (Source: UBI Research)

In addition, numerous Chinese companies including Raypaitech (理湃光晶), SHOUJING Sci. & Tech (首镜科技), and North Ocean Photonics (鲲游光电) showcased a large number of waveguide and smart glasses solution products. The Chinese industry has already established a smart glasses supply chain, encompassing not only micro-displays, waveguides, and optical engines, but also companies providing complete smart glasses solutions. This supply chain is accelerating its pace of development.

Namdeog Kim, Senior Analyst at UBI Research(ndkim@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

Apple iPhone Fold to feature 24MP under-display camera (UDC) for full-screen design

Apple to bring 24-megapixel UDC to iPhone Fold… Enhancing technological sophistication

September 12, 2025/in Display, Focus on /by UBIResearchNet

Diagram of under-panel camera (UPC) and pixel structure (Source: Samsung Display Newsroom)

Structure and pixel layout of the under-panel camera (UPC) (Source: Samsung Display Newsroom)

Apple could include a 24-megapixel under-display camera (UDC) in next year’s iPhone Fold, enabling a fully all-screen design without a dynamic island or notch, according to a JPMorgan report. Such a design innovation is highly anticipated by consumers and will be an important indicator of how quickly the expensive UDC technology will proliferate in the premium smartphone market.

Samsung introduced the world’s first UDC in the Galaxy Z Fold 3 in 2021 and kept the 4-megapixel camera on the inside screen until the Z Fold 6. However, consumer satisfaction was not high due to poor image quality and lack of cost-effectiveness, and China’s BOE filed two UDC patent infringement lawsuits against Samsung Display in the U.S. District Court for the Eastern District of Texas in May and July. In the end, Samsung put the UDC on hold for its latest Galaxy Z Fold 7 and kept the punch-hole method, a strategic choice that industry observers believe was based on legal and technical risks.

Apple combined high transmittance new materials, high pixel sensors, and AI-based image restoration technology to achieve a full all-screen form factor with high-resolution photography and Touch ID. This process will inevitably raise costs due to complex panel processes, lower yields, and increased chipset computational resources, but the idea is to differentiate itself through a “full-screen experience.

UDC technology is a key factor in realizing full screen, which allows for an aesthetic appearance by not placing cameras on top of the display. However, as light passes through multiple display layers, diffraction, scattering, and attenuation occur, resulting in noise, blurring, flaring, and poor transmittance, leading to practical problems such as poor photo quality and failed face recognition.

To solve these problems, Samsung Display is using AI-based image restoration technology to correct noise from the camera under the display and improve face recognition accuracy, and is currently verifying its performance in real-world environments, announcing a related paper at SID 2025.

At SID 2025, TCL China Star Optoelectronics (CSOT) announced the design of a 4K Real RGB OLED medium-sized panel with Camera Under Panel (CUP) technology. By relocating the pixel circuitry to a bezel section outside the camera area, the CUP technology achieves 85.8% camera aperture, 13.8% transmittance at 550nm, and 1:1 luminance uniformity between CUP and normal pixels. In the future, the company plans to apply colorless PI substrates and COE structures to increase the transmittance to over 22% and reduce reflectance.

As UDC technology becomes more mature through software and hardware design optimization, it is expected to spread from foldable phones to medium-sized displays such as tablets and laptops, beyond mobile. The era of the “invisible camera” for a full-screen experience is just around the corner.

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

2025 OLED Component and Materials Report

[VDI 2025] BOE, Automotive Display

September 11, 2025/in Video /by UBIResearchNet

[VDI 2025] Tianma, Automotive Display

September 11, 2025/in Video /by UBIResearchNet

[VDI 2025] Tianma, 8inch Micro-LED HUD

September 11, 2025/in Video /by UBIResearchNet

[VDI 2025] AUO, Micro-LED 3D HUD

September 11, 2025/in Video /by UBIResearchNet

[VDI 2025] AUO, 47inch P2P

September 11, 2025/in Video /by UBIResearchNet

[VDI 2025] Hongqi, 14.2inch rollable OLED provided by Forvia

September 11, 2025/in Video /by UBIResearchNet

Entrance of the 26th China International Optoelectronic Expo highlighting Micro LED AR showcases

At the China CIOE Optoelectronics Exhibition, JBD, Goeroptics, and other companies unveiled new AR products using Micro-LEDs

September 11, 2025/in Display, Focus on /by UBIResearchNet

The 26th China International Optoelectronics Exhibition (CIOE) opened at the Shenzhen International Convention Center on September 10, 2025. This expo, the world’s largest, attracted over 3,800 participating companies. The exhibition focused on “IC Design and Application,” “IC Manufacturing and Supply Chain,” and “Compound Semiconductors,” with participation from companies in key fields such as semiconductor materials, advanced processes, packaging testing, and optoelectronic chips.

Entrance of the 26th China International Optoelectronic Expo (CIOE) (Source: UBI Research)

Entrance view of the 26th China International Optoelectronic Expo (CIOE) (Source: UBI Research)

At this exhibition, new products for AR using Micro-LEDs were unveiled, including from JBD and Goeroptics.

JBD’s new 0.1-inch Micro LED light engine (Source: UBI Research)

JBD’s exhibited new product, 0.1-inch Micro-LED light engine (Source: UBI Research)

JBD showcased its latest products, including a 0.1-inch Micro-LED microdisplay and the Hummingbird II color light engine. The X-Cube structure achieved an ultra-compact size of 0.2cc and an ultra-light weight of 0.5g. Goeroptics showcased a product utilizing Micro-LED full color (X-cube) and silicon carbide etched light guide technology, achieving a 30° field of view and a weight of 4g.

Across the board, companies achieved breakthroughs in various technologies, including three-color combination, color conversion, and vertical stacking. Amidst the trend toward lightweight design, the “Micro-LED + light waveguide” solution has become a relatively mainstream technology. The exhibited products show that the size of Micro-LED light engines is gradually shrinking from 0.13 inches to 0.1 inches and even 0.06 inches, demonstrating the rapid advancement of this technology toward smaller volumes and higher brightness.

Namdeog Kim, Senior Analyst at UBI Research(ndkim@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

Foldable and Rollable Cover Window Market Projection Chart 2025–2029

UTG Expansion, CPI Decline… Foldable & Rollable Cover Window Market to Surpass USD 700 Million by 2029

September 11, 2025/in Display, Focus on /by UBIResearchNet

Transformable Display Cover Window Market Forecast, 2025–2029 (Source: UBI Research)

According to the recently published “2025 OLED Component and Materials Report” by UBI Research, the market for cover windows used in foldable and rollable OLED devices is projected to exceed USD 700 million by 2029.

The report forecasts that the overall OLED components and materials market will grow from USD 17.2 billion in 2025 to USD 20.2 billion by 2029, at a compound annual growth rate (CAGR) of 4%. Within this, the mobile device segment is expected to expand from USD 16.2 billion to USD 18.7 billion, continuing to drive the overall market. Meanwhile, the OLED TV components and materials market is projected to grow at a CAGR of 10.5%, reaching USD 1.5 billion by 2029.

Among these segments, the growth of the cover window market for foldable and rollable devices is particularly notable. In terms of volume, demand is expected to rise from 30.3 million units in 2025 to 70.7 million units by 2029. In revenue terms, the market is forecast to expand from USD 320 million to USD 726 million over the same period. For these devices, UTG (Ultra Thin Glass) and CPI (Color-less PI) are the primary cover window materials, with UTG adoption steadily increasing while CPI demand continues to decline.

Changho Noh, Senior Analyst at UBI Research, stated: “With Apple’s foldable smartphone launch now on the horizon, the foldable market is rapidly expanding. At the same time, new form factors such as Slidable, Rollable, and Tri-Fold devices are emerging, which will further accelerate the growth of components and materials markets for foldable and rollable devices.”

UBI Research emphasized that this report provides crucial insights into the OLED components and materials industry, which is evolving around the key themes of high functionality, slim form factor, diversification, internalization, and new manufacturing processes—all of which are critical for shaping the future strategies of the global display industry.

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

2025 OLED Component and Materials Report

BOE begins supplying LTPO panels for iPhone 17 Pro, highlighting UBI Research seminar insights (Source: UBI Research)

BOE Begins Supplying LTPO Panels for iPhone 17 Pro…UBI Research Highlights Intensifying Price Pressure

September 10, 2025/in Display, Focus on /by UBIResearchNet

Seminar presentation on BOE iPhone 17 Pro LTPO panel supply (Source: UBI Research)

BOE iPhone 17 Pro LTPO panel supply presented at UBI Research seminar (Source: UBI Research)

At the “2026 Display Strategy Seminar,” UBI Research analyst Junho Kim stated, “China’s BOE has started supplying LTPO OLED panels for the iPhone 17 Pro from August 2025, expanding its position as a supplier within Apple’s premium lineup.”

According to Analyst Junho Kim, BOE first entered Apple’s supply chain in 2021 with refurbished panels and has since supplied panels for the iPhone 12 through iPhone 16, primarily for standard models. Shipments increased from 18.7 million units in 2021 to 32 million in 2022, 41 million in 2023, and 43 million in 2024. In the first half of 2025 alone, BOE already shipped 23 million units, with full-year shipments projected to reach around 50 million units.

The supply of panels for the iPhone 17 Pro has been confirmed, but the situation differs for the iPhone 17 standard model. Certification schedules have been delayed, making mass production within the year unlikely. However, Apple has recently requested re-verification, leaving room for potential cooperation. Junho Kim added, “From 2026, the iPhone 18 series will adopt next-generation LTPO processes. Whether BOE can continue supplying will depend on yield performance, technological compatibility, and Apple’s stringent quality standards.”

Despite BOE’s expanding role in Apple’s supply chain, panel prices have continued to decline. The unit price peaked at around $55 during the iPhone 13 series but has fallen each year, reaching $40 for the iPhone 17 Pro LTPO panel—the lowest level to date. Junho Kim analyzed, “The fact that even high-complexity LTPO panels are being supplied at historically low prices underscores Apple’s strong bargaining power. Not only Samsung Display and LG Display but also BOE are under significant pricing pressure from Apple.”

Junho Kim, Analyst at UBI Research (alertriot@ubiresearch.com)

China Market Trend Report Inquiry

Competition between LEDoS and LCoS microdisplays for AR smart glasses (Source: UBI Research)

Competition for Microdisplays in AR Glasses: Who Will Prevail Between LEDoS and LCoS?

September 8, 2025/in Display, Focus on /by UBIResearchNet

The convergence of AI and AR technology advancements has led to a growing trend of AI/AR glasses being released, continuing from last year into the present. Meta is expected to announce its next-generation product, the ‘Hypernova’ smart glasses (Meta Celeste), at the Meta Connect 2025 conference scheduled for the 17th of this month (US time), drawing significant attention. Rumors suggest the display applied to the glasses will be an LCoS microdisplay panel. It is speculated that it will be a small, lightweight monocular HUD application, likely using a common LCoS 720×720 resolution product. It’s also speculated that the choice was influenced by the fact that implementing color with LEDoS panels requires using RGB mono panels in a cubic configuration, and Meta relies on the Chinese supplier JBD as the primary provider.

Last July in Shanghai, Alibaba Group unveiled its first AI glasses, the Quark glasses. They are targeting a launch within China by the end of the year. Regarding the display and optics, it was reported to use a monochrome (green) Micro-LED + waveguide structure, with JBD mentioned as the supplier. This product is a Micro-LED AR glass focused on HUD/information display, known for its design prioritizing outdoor readability, low power consumption, and lightweight characteristics. Additionally, Rokid’s smart glasses also employ mono Micro-LED + diffractive waveguides in both left and right lenses. Rokid announced that its smart glasses surpassed 40,000 units sold within just five days of starting online pre-orders on September 1st. China currently holds significant expectations for AI/AR smart glasses, with many companies adopting domestically produced LEDoS panels.

Competition between LEDoS and LCoS microdisplays is expected to continue in AR glasses. At the UBI Research Display Strategy Seminar held on September 5, a comparison of the competitiveness and outlook for LEDoS and LCoS was presented.

Comparison of near-eye headsets and glasses using LCoS (Source: UBI Research)

Comparison of near-eye headsets/glasses with LCoS (Source: UBI Research)

Comparison of AR smart glasses using LEDoS (Source: UBI Research)

Comparison of AR glasses using LEDoS (Source: UBI Research)

According to comparative analysis, for AR smart glasses targeting information display (HUD), translation, and interactive functions via displays with resolutions of 2VGA or 1080p and below, micro-LED-applied glasses were judged to be highly competitive in terms of form factor, power consumption, contrast, and image quality. For future immersive AR headsets and glasses products around 2K resolution, mutual competition is anticipated as each technology compensates for the other’s shortcomings. Smart glasses set manufacturers are expected to choose micro-displays based on price, strategic partnerships, or supply chain considerations. Ultimately, through the continued advancement of LEDoS technology, the adoption of small, lightweight, high-quality LEDoS panels is projected to expand within a few years.

Namdeog Kim, Senior Analyst at UBI Research(ndkim@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

UBI Research forecast of OLED components and materials market growth to $20.2 billion by 2029

OLED Components and Materials Market to Grow to $20.2 Billion by 2029

September 3, 2025/in Display, Focus on /by UBIResearchNet

Forecast of top 20 OLED components and materials market (Source: UBI Research)

Market forecast for top 20 OLED components and materials (Source: UBI Research)

UBI Research has released the “2025 OLED Components and Materials Report”. This report provides a comprehensive analysis of key components and material technologies and markets in response to the expanding demand for OLEDs in smartphones, foldable phones, tablets, laptops, TVs, and automotive displays.

The report systematically forecasts OLED shipments from 2025 to 2029, and the market size and usage of 20 major components and materials (Substrate, TFT, Encapsulation, Touch Sensor, Polarizer, Adhesive, Cover Window, Driver IC & COF, Composite Sheet, Process Film, etc). The report also presents an evolutionary roadmap from currently commercialized technologies such as MLA, COE, LTPO, Oxide TFT, ultra-thin glass, and TFE to next-generation materials for next-generation XR-AR and stretchable devices.

According to the report, the OLED components and materials market is expected to be worth approximately $17.2 billion in 2025, growing at a CAGR of 4% to reach approximately $20.2 billion by 2029. In particular, the market for components and materials for mobile devices will lead the overall market, growing from $16.2 billion in 2025 to $18.7 billion in 2029. The market for OLED components and materials for TVs is expected to grow at a CAGR of 10.5% to reach $1.5 billion in 2029.

In particular, the report provides an in-depth analysis of the major developments in OLED component materials, including OLED panel structures, component materials for foldable and rollerable devices, Color Filter on Encapsulation (COE) and Ultra-Thin Glass (UTG), internal and external hinges (CFRP, metal plate, GMF), protective films, Shear Thickening Fluid (STF), light efficiency enhancement materials (Micro Lens Array), encapsulation technology, QD and Oxide TFT, adhesive and heat dissipation materials, substrates, and metal masks.

This report will be an important resource for understanding the investment direction and supply chain strategies of global panel and set companies, focusing on the keywords of “ultra-high functionality, slimness, form factor diversification, In-house production, and new processes” in the OLED component and material industry.

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

2025 OLED Components and Materials Report

Automotive Mini LED display adoption expanding with OLED competition

Expanding the application area of Mini LED for vehicle displays

September 2, 2025/in Display, Focus on /by UBIResearchNet

The automotive display market has been rapidly changing in recent years, and Mini LED technology is at the center of this transformation. While some premium brands are embracing OLED for its design freedom and black expression, the overall trend is leaning toward Mini LED, which boasts price competitiveness, durability, and high brightness. Automotive environments require visibility even under direct sunlight and stability under extended use and high temperatures. Mini LED’s long lifespan and high reliability make it ideal for manufacturers to incorporate into mass-produced models.

Automotive display shipment forecast by technology – Mini LED vs OLED (Source: UBI Research)

Automotive display shipment forecast by technology (Source: UBI Research)

According to the “Automotive Display Technology and Industry Trend Analysis Report” published by UBI Research this year, shipments of Mini LED displays for vehicles are expected to increase significantly, from approximately 1.5 million units in 2023 to over 16 million units in 2030. During the same period, OLED is expected to maintain stable growth and provide differentiated value, particularly for premium brands. This suggests that OLED will establish itself as a premium, brand differentiation, and high-end image, while Mini LED, armed with stability and cost-effectiveness, will expand to mass-market models in the mid- to high-end segment.

List of automotive display models applying Mini LED technology (Source: UBI Research)

Automotive models with Mini LED display applications (Source: UBI Research)

For example, Cadillac will equip its 2022 electric SUV Lyriq with a 33-inch Mini LED display, and Lincoln will apply a 48-inch panoramic structure (23.6-inch dual 4K UHD Mini LED) to its new Navigator in 2023. The 2024 Xiaomi SU7 will introduce a 16.1-inch Mini LED CID, and the Sony-Honda joint venture Afeela, scheduled for release in 2026, will feature a 45-inch panoramic display and a 55-inch auxiliary display, suggesting the direction of next-generation electric vehicle interiors.

UBI Research Executive Vice President Changwook Han predicted, “In the automotive display market, Mini LED and OLED will continue to compete in some areas, but at the same time, Mini LED will expand its application to the general public, while OLED will maintain differentiated value in the premium segment.”

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Automotive Display Technology and Industry Trends Analysis Report

Global iPhone OLED panel supply forecast for 2026 by Samsung Display, LG Display, and BOE (Source: UBI Research)

2026 iPhone Panel Supply Outlook – Samsung Expands Foldable, LG Targets Bar-Type, BOE Aims to Prove Technology and Expand Supply

August 28, 2025/in Display, Focus on /by UBIResearchNet

iPhone OLED panel supply forecast – Samsung, LG, BOE shipment volumes 2026 (Source: UBI Research)

iPhone OLED panel supply forecast 2026 (K pcs) (Source: UBI Research)

As the launch of the iPhone 17 series approaches, Samsung Display, LG Display, and BOE are accelerating their efforts in iPhone panel production. Samsung Display and LG Display are maintaining steady growth, while China’s BOE is seeking to expand its market share by supplying panels for the Pro models.

Samsung Display shipped 63.8 million units for the iPhone 16 series in 2024, with total iPhone shipments reaching 124 million units. In 2025, shipments for the iPhone 17 series are expected to rise to 78 million units, with total shipments projected at 125 million units. Leveraging stable quality and large-scale production capacity, Samsung is expected to firmly maintain its position as Apple’s largest panel supplier.

LG Display supplied 42 million panels for the iPhone 16 series in 2024, with total shipments reaching 67.42 million units. In 2025, these numbers are expected to increase to 45.6 million units for the iPhone 17 series and 75.1 million units in total. LG Display continues to solidify its standing as the second-largest supplier after Samsung, while also distinguishing itself in the high-end LTPO panel segment.

China’s BOE has secured LTPO production capacity (30K per month) at its Mianyang B11 line and began production of panels for the iPhone 17 Pro in 2025. Although BOE managed to supply panels for the iPhone 16 Normal model in 2024, initial setbacks limited its shipments to just 6.6 million units. Total shipments stood at 43 million units, with 2025 projections ranging between 45–50 million units, including approximately 5 million units for the iPhone 17 Pro.

2026 Outlook – All Three to Remain Core Suppliers

According to UBI Research’s Q3 Display Market Tracker, Samsung Display, LG Display, and BOE are all expected to remain Apple’s core panel suppliers in 2026. According to the 2026 outlook, Samsung Display is expected to supply around 120 million panels and LG Display about 85 million panels, continuing to provide a stable supply for all iPhone series. In particular, Samsung Display is projected to deliver approximately 10 million panels for the foldable iPhone in 2026, while LG Display is likely to secure additional orders for bar-type smartphones. BOE is also forecasted to ship around 55 million units, intensifying competition in the global OLED smartphone panel market.

Changwook Han, Executive Vice President of UBI Research, stated, “While Samsung and LG Display continue to lead the market with stable quality and supply capabilities, BOE is attempting to validate both its technology and reliability through its entry into the Pro models. Going forward, the technological competition and allocation of volumes among the three companies will become a critical factor in the global smartphone panel market.”

He added, “Particularly from 2026, as the launch schedule for the iPhone Normal models shifts to the first half of the following year, the global smartphone panel market is expected to enter a more fluid phase, making the strategic moves of the major suppliers a key focal point for the industry.”

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

Quarterly Small OLED Display Market Tracker Sample

Quarterly Medium & Large OLED Display Market Tracker Sample

TCL CSOT announces 8th generation inkjet OLED investment plan at K-Display 2025, highlighting Panasonic printing equipment

TCL CSOT to announce investment in 8th generation OLED inkjet production line soon_ Inkjet printing equipment expected to be supplied by Panasonic

August 27, 2025/in Display, Focus on /by UBIResearchNet

TCL CSOT showcases 8th generation inkjet OLED technology and breakthroughs at K-Display 2025

TCL CSOT’s latest inkjet OLED technology presentation at K-Display 2025 (Source: TCL CSOT)

At the business forum of K-Display 2025, held from August 6-9, China’s TCL CSOT said it will announce its investment plans for an eighth-generation inkjet OLED production line. The project, dubbed the “T8 Project,” is planned to begin trial production in June 2027, with equipment delivery targeted for September 2026. The initial production capacity is expected to be 15,000 sheets per month in the first phase. The investment is seen as a significant move to challenge the dominant position of South Korean companies in the large OLED panel market.

The Inkjet Printing method adopted by TCL CSOT has a number of advantages over the Vacuum Deposition method currently used for large OLED production.

Cost and energy efficiency: The process can be completed in a low vacuum environment, significantly reducing equipment costs and energy consumption.
Material utilization: Since the organic material is ‘printed’ directly onto the substrate, there is less material waste, resulting in high material utilization.
Large substrate production efficiency: It is especially economical for large TV panels such as 65-inch and 77-inch.

One of the main technical challenges with inkjet OLEDs has been the lifetime of blue OLEDs, but TCL CSOT has made significant improvements. The company says its blue lifetime, which was just 40 hours in 2020, is now 400 hours, a tenfold improvement. In addition, the resolution has exceeded 350 PPI, which can meet the needs of high-performance tablets and laptops; the aperture ratio has been increased to three times that of conventional FMM (Fine Metal Mask) OLEDs to reduce power consumption; and the size of blue subpixels has been reduced to be similar to red and green, improving display quality.

Meanwhile, the printing equipment for the 8th generation OLED inkjet line is likely to come from Panasonic Production Engineering. Panasonic Production Engineering announced at SID 2025 that it has developed an 8.5-generation machine with a 1 pL (picoliter) inkjet head and 350 ppi resolution. The machine achieved an accuracy of 4.6 µm, exceeding the target accuracy of 5.8 µm, demonstrating the possibility of stable mass production of large substrates. The expected equipment configuration will consist of a Hole Injection Layer, Hole Transport Layer, and printing equipment for RGB pixel printing, as well as equipment for tandem OLEDs. Panasonic’s equipment enables the production of high-resolution displays through high-frequency jetting (20 kHz) and droplet volume control as fine as 1.0 pL, which are key technologies for improving the productivity of the inkjet process. The company also reports that production stability is enhanced through a sophisticated system that compensates for thermal deformation and micro-alignment errors.

Inkjet OLED technology still has many challenges to overcome. While current technology has improved device lifetime, there is ongoing debate about whether it has achieved sufficient lifetime for commercialization. There are also limitations that make it difficult to implement tandem structures for high brightness and low power consumption. These challenges are directly related to the yield of the production line and require continuous technology development for successful mass production of inkjet. Nevertheless, TCL CSOT’s technological advancements show that inkjet OLEDs are getting closer to reality.

If TCL CSOT’s eighth-generation inkjet OLED investment materializes, it will pose a direct challenge to the mid- to large-sized OLED market dominated by South Korea’s Samsung Display and LG Display. Currently, these two companies rely on a costly vacuum deposition process, which keeps OLED TV prices high. Mass production using inkjet technology can bring cost competitiveness, which will significantly reduce the price of OLED TVs and increase market penetration. Furthermore, the technology is expected to impact not only the TV market, but also the laptop, tablets, and professional monitor markets. Inkjet technology can become an important steppingstone for China’s display industry to secure technological leadership in the OLED field, following LCD.

Changho Noh, Senior Analyst at UBI Research (chnoh@ubiresearch.com)

China Market Trend Report Inquiry

RGB Mini LED TV market trend showing Samsung, Hisense, and Sony’s premium large-screen competition

Will RGB Mini LED Be a Game Changer in the Premium TV Market?

August 26, 2025/in Display, Focus on /by UBIResearchNet

A new competitive landscape is forming in the premium TV market. Samsung Electronics, Hisense, and Sony are competing to launch RGB Mini LED TVs, challenging the OLED-dominated market. While existing QD-Mini LEDs employ an indirect color conversion method using blue and white LEDs, RGB Mini LEDs directly emit red, green, and blue (RGB) LEDs. This allows them to achieve over 90% of the BT.2020 color gamut, deliver ultra-high brightness of 4,000-8,000 nits, and minimize blooming. They are particularly noteworthy for their ability to maintain stable color depth and brightness even on ultra-large screens.

Trends by Major Manufacturers

Samsung Electronics 115-inch RGB Micro LED TV, premium large display

Samsung Electronics 115-inch RGB Micro LED TV (Source: Samsung Electronics)

Samsung Electronics launched a 115-inch RGB Micro LED TV in August 2025, marking its full-scale foray into the ultra-large-screen market. By utilizing 90μm micro RGB LEDs and CSOT’s LCD panel, the company achieved both large-screen size and mass production, while also achieving 100% BT.2020 color gamut and high brightness. The company also announced the expansion of its 75-inch, 85-inch, and 98-inch lineups.

Hisense 116-inch RGB Mini LED TV, ultra-bright premium TV

Hisense 116-inch RGB Mini LED TV (Source: Hisense)

Hisense unveiled a 116-inch RGB Mini LED TV at CES 2025. It features 15,680-point precision control using the H7 AI chip and proprietary algorithms, and uses RGB LED chips from Qianzhao Optoelectronics to improve efficiency and lifespan. Hisense then entered the ultra-large market in March with the mass production of its flagship UX series.

Sony unveiled a 75-inch RGB Mini LED prototype at CES 2025. It boasts 32,000 RGB bubbles and 4,000 dimming zones, achieving twice the precision of conventional displays. It also boasts 66-bit backlight control and 30-bit signal processing, delivering picture quality approaching OLED. The Bravia 10 will be officially unveiled at IFA 2025.

Impact on OLED TVs

OLED TVs still possess strengths in black expression, design flexibility, and gaming-optimized performance thanks to self-illuminating pixels. However, brightness limitations and the inability to scale to larger sizes are pointed out as drawbacks. RGB Mini LED TVs can maintain color accuracy and high brightness even on ultra-large screens, threatening OLED’s dominance in the 100-inch and larger market.

Over the next five years, OLED is likely to remain competitive in the mid- to large-sized market, ranging from 55 to 77 inches. However, if RGB Mini LED achieves cost competitiveness in the 75 to 85-inch range, OLED will significantly impact its market share.

Future Strategic Challenges for OLED

For OLED to expand its presence in the premium market (75 inches and below), cost reduction is paramount. At the same time, OLED’s unique strengths –

exceptional black characteristics,
excellent color gamut at low grayscale levels,
natural color gradation

– must be emphasized as marketing points. By reducing costs and establishing a distinct value proposition over RGB Mini LED through differentiated image quality, OLED will remain a key player in the premium TV market.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

JBD, Completes Pre-B Round Financing, Plans to Fully Advance Consumer AR Ecosystem Development

August 25, 2025/in Display, Focus on /by UBIResearchNet

JBD MicroLED-based AR glasses display structure

JBD MicroLED AR glasses display structure (Source: JBD)

Shanghai JBD Company announced on August 21 that it has successfully completed a B1 round of investment worth hundreds of millions of yuan. The funds from this round of investment will primarily be used for research and development of core technologies in MicroLED micro-displays, expanding production capacity, and deepening ecosystem collaborations. This initiative aims to address the anticipated surge in global demand for AR+AI devices in the coming years.

With the accelerated application of AI, the deep integration of AI and AR is expected to bring new experiences in human-machine interaction and emerge as a core area of competition among global technology giants. As a leader in MicroLED micro-display technology, JBD aims to collaborate with partners to drive the upgrade of the AR industry and build an open and collaborative consumer AR ecosystem.

MicroLED micro-display technology is widely recognized as the next-generation solution for AR glasses displays. The recently completed funding will significantly strengthen JBD’s research and development capabilities and production capacity, accelerating the widespread adoption of MicroLED micro-display technology in the AR display sector. This is expected to further expand JBD’s influence in the global AR micro-display industry.

JBD, established in 2015, is a leading player in the MicroLED micro-display field, aiming to become a leading provider of AR display solutions. Over the past year, JBD has achieved significant results in various areas, including market expansion, product upgrades, and technological innovation. In terms of the market, there are currently about 50 smart glasses products using JBD’s MicroLED micro-display technology, recording rapid growth compared to the same period last year. Key products include Rokid Glasses, INMO GO2, Rayeo X3 Pro, and Alibaba Quark AI glasses, among other well-known Chinese brands. In terms of products, the ‘Hummingbird Mini II’ monochrome light engine launched last year features an ultra-compact size of 0.15 cc. Additionally, the new ‘Hummingbird I’ color optical module achieves a brightness of 6,000 nits. JBD’s upcoming ‘Hummingbird II’ color light engine is expected to become the industry’s first consumer-grade lightweight AR glasses-compatible color display solution.

Namdeog Kim, Senior Analyst at UBI Research(ndkim@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

LG Display keynote at IMID 2025 on cognitive display interface with AI

[IMID 2025] LG Display Presents Future Direction of Next-Generation Displays Connecting AI and Humans

August 22, 2025/in Display, Focus on /by UBIResearchNet

LG Display presentation at IMID 2025 on display requirements in the AI Interface Era

LG Display keynote at IMID 2025, “Display Requirements in the AI Interface Era” (Source: LG Display)

At IMID 2025, held from August 19 to 22, LG Display delivered a keynote speech on “Beyond Screen: Display as Cognitive Interface.”

Displays are rapidly evolving beyond simple tools for showing information into gateways for communication between humans and artificial intelligence (AI). In his keynote speech at IMID 2025, Choi Hyun-chul, Executive Vice President of LG Display, emphasized, “The advancement of AI is transforming displays from mere visual output devices into cognitive interfaces that understand human emotions and intentions.”

Executive Vice President Choi presented three key pillars in the AI Interface Era: User Interface, Spatial Structure, and AI Sustainability.

First, User Interface—an innovation in input methods. Displays are moving beyond button- and touchscreen-based controls toward AI-driven interfaces that recognize and interpret nonverbal signals such as gaze, gestures, and facial expressions.

Second, Spatial Structure—an innovation in form. With the advent of foldable, stretchable, and transparent displays, as well as AR/VR-based mixed reality (MR) technologies, screens are no longer confined to fixed rectangular shapes.

Third, AI Sustainability. Choi stressed that such advancements must proceed in an ethical and sustainable manner. Privacy protection, energy efficiency, eco-friendly materials, and responsible manufacturing processes are essential prerequisites for displays to be established as responsible technologies.

He concluded, “In the AI era, displays will go beyond simple screens to become new interfaces where humans and machines mutually understand and connect,” outlining the technical requirements and developmental directions that future displays should pursue.

In addition to delivering the keynote speech, LG Display also received the Display of the Year Award at IMID 2025 and showcased a wide range of OLED products at the BEXCO exhibition hall.

Junho Kim, Analyst at UBI Research (alertriot@ubiresearch.com)

UBI Research’s Display Reports

SIDTEK presenting the current status and challenges of China OLEDoS industry at K-Display 2025

SIDTEK Unveils Vertical Integration Strategy for OLEDoS Mass Production and Manufacturing Process at K-Display 2025

August 22, 2025/in Display, Focus on /by UBIResearchNet

SIDTEK presenting China OLEDoS industry status and challenges at K-Display 2025 (Source: SIDTEK)

At the business forum of K-Display 2025, held from August 6-9, China’s SIDTEK discloses OLEDoS mass production status and future expansion strategy. In addition to announcing the start of mass production at its Wuhu facility, SIDTEK also announced that it has completed the groundbreaking of an additional factory and is preparing for a third facility. Amidst active competition from local governments to build OLEDoS mass production plants, SIDTEK has made it clear that its business progress in China should be based on “breaking ground and bringing in equipment” rather than announcing “contracts,” and plans to rapidly expand its production base with multi-base operations.

The pace of expansion in the Chinese ecosystem is also accelerating. SIDTEK explains that it has formed a “three-company simultaneous mass production” structure with BOE and SEEYA. Goertek, a set company, is also reportedly looking into the possibility of investing in the deposition process to directly control the display, which is the key to VR costs. The combination of these moves could lead to a production capacity scenario of tens of thousands of sheets per month for 12-inch in the medium term. The strategy is to use the power of scale to lower costs and speed up development capacity.

The speaker posed the question, “If OLEDoS is such good technology, why aren’t there any buyers around?” He emphasized the realism that large-scale facility investment should be judged by production volume, which is “can it be sold like a cell phone,” and that from a manufacturing perspective, demand validation and profitability should come first.

In-house design of backplane semiconductors was presented as a key solution to low yields that affect production prices. The diagnosis is that the low yield of Micro-OLEDs is not only due to technical difficulties, but also to unclear responsibility for defects that occur in the structure where the backplane (semiconductor) and panel are separated, and delays in improvement. “We need to bring the semiconductor inside and close the defect analysis and improvement loop,” SIDTEK emphasized. In China, vertical integration is spreading across the industry, with SEEYA investing in the wafer stage to optimize integration, and BOE preparing to enter the market with existing line capacity.

The product and market strategy is focused on “lightweight AR” in the near term. The speaker is skeptical of the “full screen all the time with glasses” scenario and predicts that AR will first be popularized for simple information such as navigation and notifications. As a result, optimizing backplane chips (BPICs) and optics, focusing on power consumption, visibility, and uniformity, rather than racing to ultra-high resolutions, is a challenge. Balancing realistic price points and ease of use will be key to early adoption, he said.

Judgments were also shared on the display technology axis. In VR, fast LCD, glass-based OLED, and OLEDoS are competing, with glass-based OLED, with its size scalability and optical simplification advantages, likely to emerge in the low-end and entry-level segments, while OLEDoS will share the role at the high-end. In the AR, the view was that LCoS, OLEDoS, and LEDoS will coexist, but that the volatility of the OLEDoS position should be noted, leaving open the possibility of a shift to LEDoS if ultra-high resolution is not a requirement.

During the on-site discussion, it was suggested that “VR devices have the potential to become widespread if lightweight and convenient designs can be achieved,” and that AI-based image processing combined with interaction will serve as a catalyst for this development.

SIDTEK’s announcement reaffirms its realist strategy centered on “real mass production factories” and “securing profitability”. The company plans to build credibility with multi-location mass production, speed up learning to improve production yield and defects with in-house design of backplane semiconductors, and open up the market with design and process optimization tailored to the lightweight AR segment, where near-term demand is gathering. Despite demand uncertainty in China, SIDTEK is responding with a conservative, execution-focused expansion strategy, as government-led investments and vertical integration among companies continue to drive the “game of scale” in the country.

Changho Noh, Analyst at UBI Research (chnoh@ubiresearch.com)

UBI Research’s Micro Display Reports

LG Electronics and LG Display Strengthen Collaboration on LTPS-Based Micro-LED Signage

August 21, 2025/in Display, Focus on /by UBIResearchNet

LG Electronics is transitioning its Micro-LED signage products from conventional printed circuit boards (PCBs) to glass-based low-temperature polycrystalline silicon (LTPS) thin-film transistors (TFTs), and LG Display is partnering with the company. LTPS’s high electron mobility allows for the integration of per-pixel driving circuitry within the panel, reducing signal delays and wiring complexity and significantly improving performance and efficiency compared to PCBs.

LG Display is currently developing a 22.3-inch Micro-LED module. This module features a resolution of 480×540, a pixel pitch of 0.783mm, a contrast ratio of 1,000,000:1, and a bezel thickness of 1.94mm. Connecting 32 modules creates a 136-inch signage. The chip size is less than 50㎛, and a similar product was previously showcased at the previous K-Display exhibition. LG Electronics plans to utilize this module to expand its premium signage lineup. Micro-LED signage is better suited for large commercial displays than consumer TVs due to its high-precision, high-cost process. The signage market prioritizes image quality, durability, and brightness, allowing for the adoption of high-end equipment. The modular structure facilitates flexible expansion of size and resolution. Conversely, consumer TVs in the 55- to 75-inch range are price-sensitive, posing a high barrier to entry. Consequently, LG is maintaining its OLED TV expansion strategy while focusing on commercial applications such as video walls and billboards for Micro-LED.

As a panel manufacturer, LG Display utilizes existing TFT lines to manufacture Micro-LED TFT substrates. According to a published patent, the company has established a process that covers transferred LED chips with an organic insulating film, forms contact holes in the electrodes, and then deposits metal wires to electrically connect the chips and TFT substrates. Leveraging its experience in AMOLED manufacturing, LG Display has secured line switching efficiency and process reliability. LG Electronics is responsible for all aspects of final quality control, including finished product manufacturing, image quality correction, and compensation for defective pixels and color differences, ensuring brand reliability.

LG Electronics and LG Display Micro-LED manufacturing process and cross-sectional structure (LTPS-based TFT substrate)

Micro-LED manufacturing process and cross-sectional structure introduced in LG Display’s patent. (Source: LG Display)

LG Display demonstrated its Micro-LED tiling technology at SID 2025 and K-Display. The demonstration highlighted the scalability of large displays by separating and integrating two 22-inch modules, enabling a 136-inch 4K display in an 8×4 configuration.

According to the strategy announced last year, LG Electronics will focus on premium signage and fine-pitch LED displays in its business solutions segment. Its flagship product, the “MAGNIT” Micro-LED, has nearly doubled its annual sales since its launch in 2020, but its market size remains limited. In 2023, the company will launch the 118-inch 4K 120Hz MAGNIT (0.6mm pixel pitch) for home use at $237,000, targeting the ultra-high-end premium market.

The industry expects LG Electronics to prioritize its OLED TV business while pursuing mid- to long-term expansion of Micro-LED, focusing on commercial displays. The transition to LTPS is a key pillar of this strategy and is expected to serve as a springboard for conquering the high-performance, high-reliability signage market.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

Tianma Unveils Automotive Micro-LED Technology and Industrialization Strategy at DIC Forum 2025

August 20, 2025/in Display, Focus on /by UBIResearchNet

Tianma Micro-LED development achievements roadmap (2017–2026), automotive display applications and industrialization strategy

Tianma’s roadmap of Micro-LED development achievements (2017–2026), including automotive display applications and industrialization strategy. Source: Tianma

At DIC Forum 2025, Tianma presented its Micro-LED technology development achievements under the theme of “Micro-LED Display – A New Opportunity for In-Vehicle Displays,” including a roadmap from 2017 to 2026 and the status of development and production establishment.

The Research phase, spanning from 2017 to 2019, involved basic research and technology verification. This phase focused on the basic design and testing of Micro-LED-based display technology, rather than specific commercial products.

The Technology Launch phase, spanning from 2019 to 2020, showcased a 7.56-inch 60% transparent screen, a 7.56-inch R50 curved flexible screen, a 5-inch Micro-LED + E-paper dual display, and a 5.04-inch dual-module display. This phase represented the initial commercial prototype stage, which included prototypes of various small displays, including transparent, curved, and E-paper combinations.

The Performance Improvement phase, spanning from 2021 to 2022, saw the development of an 11.6-inch 228ppi CID, a 9.38-inch 70% transparent screen, a 7.56-inch foldable screen, and a 5.06-inch small display. Performance improvements for practical use, such as resolution enhancements, transparency enhancements, and foldable display applications, were focused on.

The Application Expansion phase, spanning 2023-2024, showcased an 8.07-inch automotive free-form display, a 9.38-inch display with adjustable transparency of 0.1~24%, a 1.63-inch 403ppi ultra-high-resolution small display, and a 5.84-inch standard screen. This expanded the technology to diverse applications, including automotive, home appliance, and special-purpose applications, and commercialized ultra-high-resolution small panels with adjustable transparency.

The Industrialization phase, spanning 2024-2026, aims to establish a large-scale mass production system and expand the supply of commercial products. This phase will focus on increasing technological maturity and standardizing and mass-producing products for use across a wide range of industries.

Tianma Establishes Micro-LED Production Line

In 2022, Tianma established “Tianma New Display Technology Research Institute (Xiamen) Co., Ltd.” in Xiamen with a local partner. Leveraging its LTPS TFT backplane technology, Tianma is building a full-process Micro-LED production line, from mass transfer to display modules, located in Xiamen. Upon completion, Tianma will possess full-process capabilities for Micro-LED display modules.

Tianma’s Micro-LED production line utilizes its own core processes and, in a global market lacking mature technologies, provides customized, fully automated 3.5th generation mass transfer and bonding equipment. During the production line construction process, Tianma and upstream and downstream supply chain companies jointly developed over 30 types of mass production equipment and materials for the first time.

Leveraging its LTPS technology advantages and long-term R&D investment, and based on its full-process 3.5th generation Micro-LED production line, Tianma has developed cutting-edge display technologies with broad applications in automotive, video wall, and transparent display applications.

Tianma Micro-LED Industry Cooperation

Tianma held the Micro-LED Ecosystem Alliance Conference in Xiamen in December 2021 and announced the establishment of a Micro-LED industry chain. In 2022, it established a Micro-LED research institute and production line, integrated the Hubei Changxian experimental line, and established a Micro-LED multi-project development platform, fostering a virtuous cycle of internal innovation and development.

Tianma also continues to play a leading role in the industry chain, jointly releasing two group standards from 2023 to 2024 and spearheading the compilation of the FTS Mini/Micro LED Annual Technical Report. Currently, the production line is operating normally, and Tianma is expanding its technological competitiveness and market influence in the Micro-LED field.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

LG Display presents OLED innovation and future display vision at “K-Display 2025.”

August 19, 2025/in Display, Focus on /by UBIResearchNet

LG Display participated in ‘K-Display 2025’ held at COEX in Seoul for three days starting on the 7th, and unveiled a wide range of innovative display technologies and products covering large, small, and automotive displays. The theme of this exhibition is ‘Shaping the Future’, and OLED innovations and various display solutions that connect the present and the future were showcased. In addition, a space where visitors can experience the world’s first and highest-spec technology was created to enhance their understanding. LG Display organized the ‘OLED Heritage’ exhibition space so that the technological development process since the world’s first successful mass production of large-size OLEDs can be seen at a glance. Starting with the 15-inch OLED prototype in 2009, the development stages were intuitively introduced through models, starting with the tandem OLED two-layer structure, the second-generation OLED using the deuterium atomic structure, the third-generation OLED using micro lens array (MLA) technology, and the fourth-generation OLED using the primary RGB tandem structure, which stacks the three primary colors of light in independent layers. At the booth entrance, an 83-inch OLED panel utilizing 4th-generation OLED technology greeted visitors. This panel, an industry first, utilizes Primary RGB Tandem technology, which independently layers each RGB color, achieving a maximum brightness of 4,000 nits. A large-scale panel comparison demonstration showcased its outstanding color reproducibility and three-dimensionality.

LG Display 83-inch 4th generation OLED panel showcased

83-inch panel with LG Display’s 4th generation OLED (Source: LG Display)

The 27-inch QHD OLED monitor panel aimed at the gaming market can implement up to 720Hz (HD) with DFR (Dynamic Frequency & Resolution) technology, and boasts the highest level of picture quality among OLED monitors with DCI-P3 99.5% color reproducibility and maximum brightness of 1,500 nits. A 45-inch 5K2K OLED panel, which provides the highest resolution among existing OLED monitors, was also on display, allowing visitors to experience its performance while playing games. In the field of automotive displays, the SDV (Software-Driven Vehicle) concept car targeting the era of fully autonomous driving was exhibited. This vehicle is equipped with the largest 57-inch pillar-to-pillar LCD to date, which provides integrated driver information and entertainment on a curved screen that runs across the dashboard. A variety of automotive solutions were also unveiled, including a 32.6-inch slider OLED, a 29-inch ultra-high-brightness outdoor LCD, and a 47.8-inch LTPS LCD with SPM (Switchable Privacy Mode) technology that hides the passenger screen from the driver’s seat.

LG Display 57-inch pillar-to-pillar automotive LCD display

57-inch pillar-to-pillar automotive LCD display (Source: LG Display)

Another notable example was the application of the world’s first stretchable display, capable of expanding by up to 53%, to a vehicle jog dial. The display remains flat under normal conditions, but expands into a dial-like shape when a button is pressed.

LG Display stretchable TFT array on silicone substrate with 53% flexibility

Demonstration of LG Display’s 53% stretchable display (Source: LG Display)

Low-power solutions targeting the AI era were also introduced. The 14-inch tandem ATO panel achieves both high brightness and low power consumption by applying a tandem structure and a single glass substrate, and the 14.5-inch LCD maximizes battery efficiency with oxide TFT and low-power backlight technology, providing optimized performance for AI devices with increasing power demands. An LG Display official emphasized that the technological evolution of OLED is changing the paradigm of the display industry, and that the company will secure sustainable competitiveness and provide differentiated customer value by strengthening its future technology research and development capabilities as well as commercial technology perfection.

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Small OLED Display Annual Report Sample

2025 Mid-to-Large OLED Display Annual Report Sample

Micro-LED Market Expected to Grow to $1.3 Billion in 2030

August 18, 2025/in Display, Focus on /by UBIResearchNet

UBI Research forecasts the Micro-LED market to reach $1.342 billion by 2030, with annual TV production capacity expanding from 50,000 to 6 million units

UBI Research projects the Micro-LED market to grow to around $1.342 billion by 2030, reshaping the premium TV market landscape. Source: UBI Research

– Annual TV production capacity of 50,000 → 6 million units will accelerate game changing in the premium TV market

According to the “2025 Micro-LED Display Industry and Technology Trend Report” recently published by Ubi Research, Micro-LED, which is touted as a “game changer” in the next generation display market, is on a full-scale growth trajectory. Global Micro-LED TV production capacity is expected to expand from the 50,000 units per year level in 2023 to approximately 6 million units in 2030, and the Micro-LED market size is expected to reach approximately US$1.3 billion (US$1.342 billion).

Micro-LED is a self-luminous flat panel display technology with higher brightness, longer life, and better durability than OLED, and has emerged as a next-generation candidate in the premium TV and next-generation wearable device markets. Especially it has a wide range of applications from large displays to ultra-compact AR-VR devices due to its superior color reproducibility and visibility with no burn-in concerns.

UBI Research analyzes that full-scale commercialization will begin after 2027, coupled with improved production efficiency and reduced manufacturing costs, and that the market will continue to grow at a high average annual rate of more than 50% from 2028 onward.

The main factors driving market expansion are as follows

Increased demand for premium TVs: Growing consumer preference for ultra‑large, high-resolution products.
Expansion of production infrastructure: Large-scale investment in mass production lines and process improvements by major manufacturers.
Diversification of application fields: In addition to TVs, enter new markets such as transparent displays, smart glasses, and wearable devices.
Enhanced price competitiveness: Expansion of consumer accessibility through mass production stabilization and cost reduction.

Joohan Kim, an analyst at UBi Research, pointed out that “the key to Micro-LED proliferation is a stable supply of epi wafers. He added, “Large-scale MOCVD orders are expected to continue after 2026, and wafer production volume is expected to expand to 10 times the current level by 2030,” and “Such stabilization of material supply will support the mass production system of Micro-LED, strengthen price competitiveness, and accelerate market expansion. He added.

Analyst Kim, Joohan added, “By 2030, the Micro-LED TV market will not only change the competitive landscape of the premium TV market but also affect the profit structure of the forward industry in general,” and “in particular, it will create new growth opportunities in the overall value chain.”

More specific market outlooks and industry-specific ripple effects will be presented at the “Display Strategy Seminar for 2026 Readiness” to be held on September 5.

Joohan Kim, Senior Analys at UBI Research (joohanus@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

Samsung Display Featured at K-Display 2025 with Micro-LEDs for Premium Watches

August 18, 2025/in Display, Focus on /by UBIResearchNet

Samsung Display 6,000-nit Micro-LED smartwatch showcased at K-Display 2025

Samsung Display unveils Micro-LED smartwatch at K-Display 2025, Source: Samsung Display

Samsung Display flexible Micro-LED display showcased at K-Display 2025

Samsung Display introduces flexible Micro-LED display, Source: Samsung Display

Samsung Display unveiled an innovative product at the K-Display 2025 exhibition that will change the game in the next-generation smartwatch market. The 6,000nit class smartwatch Micro-LED display presented at the show boasts the highest level of brightness of any wrist watch display announced to date. It has a resolution of 326 PPI and was achieved by precision transferring approximately 700,000 red, green, and blue (RGB) LED chips of less than 30μm in size. A Micro-LED display with a 4,000nit flexible structure that can be bent freely was also shown, presenting a variety of design possibilities. In particular, the inorganic light-emitting structure, which has high brightness, low power consumption, and high reliability at the same time, with absolutely no change in brightness and color depending on the viewing angle even when the screen is bent, is regarded as having greatly increased the competitiveness of next-generation wearable displays.

Through this exhibition, Samsung Display presented the market potential of the fusion of flexible design and Micro-LEDs together. Flexible displays go beyond simple curved surface mounting and enable a variety of form factor designs such as folding (Foldable), rolling (Rollable), stretching ( Stretchable), and can expand the range of applications to include not only smartphones, tablets, and wearable devices, but also automotive and aircraft displays. Another advantage is the use of thin and light plastic substrates instead of glass to reduce thickness and weight, and to ensure durability against drop impact.

These characteristics are also advantageous for integrated component designs such as on-sell touch and under-panel cameras, providing production efficiency and cost reduction benefits, and are strategic assets for design differentiation and brand image enhancement in the premium product market. The flexible Micro-LED display announced by Samsung Display inherits these technological and market values of flexible OLED displays and is attracting attention as a core driving force that will simultaneously drive technological superiority and premium image in the wearable display market in the future. The flexible OLED display is expected to be the core driving force for both technological superiority and premium image in the wearable display market.

Joohan Kim, Senior Analys at UBI Research (joohanus@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

BOE Unveils Next-Generation LTPO OLED Roadmap at DIC 2025…Evolving into LTPO 2.x in 2025

August 15, 2025/in Display, Focus on /by UBIResearchNet

BOE LTPO OLED roadmap unveiled at DIC 2025, showing evolution from LTPO 1.0 to LTPO 2.x

BOE’s LTPO Roadmap Exhibited at DIC 2025

From August 7 to 9, at the DIC EXPO 2025 (Display Innovation China), BOE unveiled its LTPO OLED technology development roadmap. The presentation provided a clear view of the company’s technological evolution, starting with the commercialization of LTPO 1.0 in 2021 and leading up to the upcoming launch of the next-generation LTPO 2.x in 2025.

From LTPO 1.0 to 2.0 – Enhanced Power Efficiency and Color Reproduction

In 2021, BOE began mass production of LTPO 1.0, commercializing technology that supports a variable refresh rate (1–120 Hz) and delivers up to 15% power savings. In the same year, the company developed LTPO 1.0+COE (Color on Encapsulation), improving color gamut performance from 83% to 92% (BT2020 standard) and ushering in the era of high color gamut displays.

In 2023, BOE commenced mass production of LTPO 2.0, which minimizes visual fatigue by reducing flicker. This product features 960 Hz PWM driving, supports high brightness of 500 nits, and achieves up to 71% power savings in low-brightness environments.

Tandem Structure Adoption – High Brightness and Low Carbon

Launched in 2024, LTPO 2.0+Tandem improves both transmittance and power efficiency. By adopting a tandem stacked structure, it delivers 24% power savings while simultaneously achieving high brightness and eco-friendliness.

LTPO 2.x in 2025 – Expanding Beyond Mobile to Laptops and Tablets

BOE plans to introduce its next-generation LTPO 2.x in 2025. This technology will further enhance resolution and transmittance, while adopting a thinner and lighter structure. It is expected to be applied not only to smartphones but also to various devices such as laptops (MB), notebooks (NB), and tablets (TPC).

Accelerating Next-Generation Mobile Display Competition

Industry experts believe BOE’s LTPO 2.x will serve as a critical weapon in next-generation OLED competition with Samsung Display and LG Display. With its emphasis on both energy efficiency and eco-friendly technology, BOE is expected to strengthen its position in the global premium smart device market.

Junho Kim, Analyst at UBI Research (alertriot@ubiresearch.com)

China Market Trend Report Inquiry

[DIC EXPO 2025] BOE, 17-inch Rollable OLED

August 14, 2025/in Video /by UBIResearchNet

[DIC EXPO 2025] Visionox, World’s First Flexible AMOLED Sliding Automotive Center Console

August 14, 2025/in Video /by UBIResearchNet

[DIC EXPO 2025] Visionox, R3 Fully Integrated Flexible AMOLED Rollable Technology

August 14, 2025/in Video /by UBIResearchNet

[DIC EXPO 2025] NEG, Ultra thin glass for chemical strengthening

August 14, 2025/in Video /by UBIResearchNet

Tianma Company Showcases Micro-LED HUD and Vehicle Instrument Panel Displays at DIC EXPO 2025

August 14, 2025/in Display, Focus on /by UBIResearchNet

From August 7 to 9, the 2025 International Display Technology and Application Innovation Exhibition (“DIC EXPO 2025”) was held at the New International Expo Center. At this exhibition, Tianma showcased advanced display technology products across its entire product range. Leveraging its innovative capabilities and superior product quality, the company won four gold awards and six silver awards at the concurrently held DIC AWARD 2025 International Display Innovation Awards ceremony, drawing significant attention.

Tianma is focusing on cutting-edge technologies such as Micro-LED and OLED, which are gaining attention in the industry. Among these, the company showcased an 8-inch Micro-LED IRIS (Integrated Reflective Image System) HUD, symbolizing the future direction of the display industry. This display achieves ultra-high brightness of over 10,000 nits, significantly reducing afterimage effects compared to traditional LCD solutions, and its simplified optical system structure allows for a smaller overall size. With its high brightness and contrast ratio, it can display images and text more clearly and distinctly even in high-luminance environments.

Tianma’s 8-inch IRIS Micro-LED HUD at DIC EXPO 2025

8-inch IRIS Micro-LED HUD Application Product Source: TIANMA

Additionally, Tianma showcased a 12.3-inch 2D/3D switchable Light Field vehicle instrument cluster display. This product was recognized for its excellence at the DIC AWARD Display Application Innovation Award. It is a vehicle instrument cluster display that implements 2D/3D switching functionality using liquid crystal prism technology, and it is also the first vehicle instrument cluster display in the industry to adopt 500ppi. It offers real-time 3D depth adjustment (viewing distance ≥ 0.6m, viewing angle 25°) and seamless 2D/3D switching with a single button press. It employs proprietary Light Field rendering technology and lossless conversion algorithms to ensure smooth visual transitions. In 3D mode, it displays stereoscopic instrument panel information without the need for glasses, with data such as vehicle speed and rotation speed appearing in a three-dimensional effect.

12.3-inch 3D/2D switchable automotive cluster display with 500ppi resolution Source: TIANMA

This company successfully demonstrated a 7-inch Micro-LED automotive display sample device based on its own G3.5 generation production line in July this year. In terms of product industrialization, the company is focusing on three core areas: automotive displays, public information displays, and transparent displays, while also preparing for expansion into wearable and AR fields.

Namdeog Kim, Senior Analyst at UBI Research(ndkim@ubiresearch.com)

2025 Micro-LED Display Industry and Technology Trends Report

[DIC EXPO 2025] TCL CSOT, 219-inch Micro-LED (288 tiled 8.89-inch panels)

August 13, 2025/in Video /by UBIResearchNet

[DIC EXPO 2025] Visionox, 135 inch P0.7, Micro-LED(TFT)

August 13, 2025/in Video /by UBIResearchNet

[DIC EXPO 2025] TCL, Partioned Frequency 6.73 inch Smartphone

August 13, 2025/in Video /by UBIResearchNet

[DIC EXPO 2025] Visionox, Shy Tech Automotive OLED 400nit with 50% Transmittance Film

August 13, 2025/in Video /by UBIResearchNet

Samsung Display Declares ‘Era of Smarter’ at K-Display 2025… Accelerating Display Paradigm Shift with AI

August 13, 2025/in Display, Focus on /by UBIResearchNet

Samsung Display’s ‘Era of Smarter’ concept diagram and AI-driven display paradigm shift presented at K-Display 2025

Display paradigm shift with AI, Source: Samsung Display

At the K-Display 2025 Business Forum held from August 6 to 9 last week, Seongchan Cho, Vice President of Samsung Display, delivered a presentation titled “Display Paradigm Shift with AI,” explaining that, against the backdrop of evolving usage patterns across smartphones, tablets, and smart monitors and the advancement of communications and cloud infrastructure, the trend of “carry small, view big” is spreading and displays are being redefined as the core of the next-generation human–machine interface (HMI).

He noted that OLED has achieved major advances in perceived image quality—such as contrast, response, and color reproduction—and that it is now time to leap forward into a stage of intelligent optimization that simultaneously improves power, thermal, optical, and algorithmic performance. In particular, he outlined three clear pillars for AI.

First, with AI-designed OLED materials, the company will accelerate materials discovery and property prediction to improve key metrics such as lifetime, efficiency, and color purity more rapidly. Second, in panel architecture optimization, AI-driven design and simulation will shorten multivariable trade-offs across light extraction, encapsulation, and color conversion. Third, under “AI on Display,” the company will emphasize a strategy that dynamically operates features for health, security, and power saving by recognizing usage context. Power optimization and perceived user quality were also central messages.

The company introduced an approach that reduces unnecessary power consumption through control of the off-pixel ratio (OPR) and region-specific frequency optimization, while structurally lowering optical losses such as polarization loss. At the same time, based on the concept of “perceptual image quality”—that contrast and color optimization determine readability and fatigue even at the same luminance—the company stated it will comprehensively enhance contrast, color accuracy, and uniformity to elevate perceived sharpness.

The roadmap for the XR era was also made clear. By combining high-density, high-brightness OLEDoS microdisplays compatible with lightweight optics (such as pancake lenses) with ultra-low-latency driving and improvements in viewing angle and uniformity, the company aims to reduce fatigue in long-wear scenarios, while presenting practical use cases in which multimodal inputs—such as eye gaze, hand gestures, and voice—are processed by on-device AI. This aligns with the direction of “smart displays,” which integrate and optimize power, thermal, optical, and algorithmic factors under device battery constraints.

The health, security, and power-saving focus of “AI on Display” was also presented in concrete terms. On the health front, the company pointed to organic photodiode (OPD)-based biosignal sensing and adaptive contrast/color temperature control to reduce eye strain; on security, smart privacy displays and risk detection based on gaze and presence sensing; and on power saving, dynamic operation that reflects content, environment, and user status to maximize battery efficiency.

The company also demonstrated strong commitment to environmental and safety (ESG) goals. It is pursuing a roadmap to substitute hazardous gases and chemicals used in silicon-oxide-based multilayer structures with safer substances and to phase out and replace high-performing yet environmentally burdensome materials such as PFAS. The company plans to raise environmental and safety standards in parallel throughout large-format, high-integration, and wearable expansion.

At its exhibition booth, Samsung Display showcased exhibits that concretize this vision. Through microdisplay engines/modules for XR, lightweight-optics-compatible reference designs, and interaction demos under the “AI on Display” concept—such as gaze-based focusing and variable-resolution/brightness driving—the company highlighted its capabilities in the integrated optimization of panels, optics, and algorithms.

Changho Noh, Analyst at UBI Research (chnoh@ubiresearch.com)

2025 Small OLED Display Annual Report Sample

2025 Mid-to-Large OLED Display Annual Report Sample

[DIC EXPO 2025] EDO Showcases OLED Capabilities, Sets Sights on Global Market Expansion

August 12, 2025/in Display, Focus on /by UBIResearchNet

At DIC EXPO 2025 in Shanghai, China, EverDisplay Optronics (EDO), a leading Chinese AMOLED specialist, set up a large booth and showcased its extensive OLED product portfolio. While EDO is a relatively rare participant in major international display exhibitions, it highlighted its latest products and technologies at this year’s DIC EXPO, demonstrating a strong commitment to market expansion.

Founded in 2012, EDO is one of the leaders in successfully mass producing AMOLEDs in China at a relatively early stage. Currently producing both rigid and flexible OLEDs, EDO has recently expanded into high-value-added markets such as foldable OLEDs and automotive OLEDs. In particular, it holds the number one position in China in the mid- to large-sized AMOLED (tablets, laptops, etc.) market, demonstrating a dominant presence in the tablet and laptop display markets. In 2024, EDO’s OLED panel shipments reached 42.6 million units and revenue reached $462.3 million, ranking it fifth among Chinese OLED panel manufacturers. Key to this success are strategic partnerships, including supplying tablet panels to major clients such as HONOR and Huawei, and providing 14-inch 2.8K and 1.9K OLED panels to global PC brand Acer.

EDO operates both G4.5 and G6 production lines in Shanghai. The G4.5 line primarily produces panels for wearables and smartphones, while the G6 line produces large-scale panels for tablets, laptops, automobiles, monitors, and aircraft. Its monthly production capacity reaches 30,000 substrates. In the aviation industry, EDO supplies 15.6-inch, 21.6-inch, and 27-inch AMOLED panels to global airlines through Panasonic. For automotive OLEDs, EDO supplies 13-inch and 15.1-inch Tandem OLED panels to companies such as Geely.

EDO’s 11.3-inch LTPO OLED tablet display showcased at DIC EXPO 2025

11.3-inch LTPO OLED, Source: EDO

EDO’s 14.2-inch hybrid, tandem OLED tablet display showcased at DIC EXPO 2025

14.2-inch Hybrid, Tandem OLED, Source: EDO

At this exhibition, tablets utilizing Hybrid OLED and Tandem OLED technologies attracted the attention of visitors. EDO became the first company in China to mass-produce tablets utilizing Hybrid OLED and Tandem OLED in 2024, and has also successfully mass-produced a 27-inch 4K AMOLED monitor panel. LTPO TFT technology, designed for low power consumption, is also being widely applied to watches and tablets, improving energy efficiency.

EDO’s 21.6-inch and 27-inch OLED monitor panels displayed at DIC EXPO 2025

21.6-inch, 27-inch OLED Monitors, Source: EDO

Changwook Han, Executive Vice President/Analyst at UBI Research (cwhan@ubiresearch.com)

2025 Small OLED Display Annual Report Sample

2025 Mid-to-Large OLED Display Annual Report Sample

San An Optoelectronics Acquires Lumiles of the Netherlands for $239 Million

August 11, 2025/in Display, Focus on /by UBIResearchNet

Acquisition of 3rd Largest Automotive LED Manufacturer Accelerates Global Automotive and Micro-LED Market Capture

San’an Optoelectronics, China’s largest LED epitaxial wafer and chip manufacturer, announced that it will acquire Lumileds, a Dutch LED specialist, for $239 million in cash.

Lumileds was originally founded as a joint venture between Philips and Agilent and has grown to become a leading global LED solution supplier in the automotive and architectural lighting segments. The company currently holds the third place in the global automotive LED market (1st ams OSRAM, 2nd Nichia) and recorded sales of approximately $600 million in 2024.

In the micro-LED field, Lumileds is also actively developing technologies: in 2024, in cooperation with XDC, the company demonstrated a 140 PPI micro-IC driven micro-LED display on a 13× 20 μm LED chip substrate, demonstrating its commercial viability.

San An Optoelectronics accounts for about 60% of China’s LED wafer production, producing more than 24 million wafers annually. In the micro-LED field, the company is working with global display manufacturers such as Samsung and TCL CSOT, and has announced plans to build a $1.8 billion Mini-LED and Micro-LED production center in Hubei Province, China, in 2019. 6-inch by 2025 with a monthly capacity of 1,400 Micro-LED wafer production capacity.

The acquisition is expected to help Shan’an achieve its two strategic goals of expanding its automotive LED market share and strengthening its Micro-LED technology portfolio. China will have an integrated system from Micro-LEDs for vehicles to ‘chips→ , modules→ , and application to complete vehicles. In particular, the combination of Lumileds’ high-reliability automotive lighting technology and micro-LED device design capabilities is expected to greatly enhance competitiveness in next-generation application markets such as vehicle displays, AR HUD, and smart lighting. If San’an maintains Lumileds’ global OEM network intact, the speed of entry into the European and American luxury vehicle markets could also be very fast.

The reasons for this, in stages, are as follows

1. pre-acquisition – post-acquisition changes in San’an’s value chain

2. Significance in the Automotive Micro-LED Field

Lumileds Strengths
- Experience in automotive reliability certifications such as AEC-Q100/102/104
- LED module design capability for headlamps, DRLs, and HUDs
- Supply contracts and networks with global automotive suppliers
San’an Strengths
- High-volume production capacity of RGB chips for Micro-LEDs
- Cost competitiveness + Government support (China LED Independence Strategy)

Synergies: San’an produces chips OEM delivery can be done within one company → Complete vertical affiliation

3. Impact on China’s Automotive Micro-LED Strategy

Technology internalization
- Absorption of Lumileds’ vehicle standards compliance and optical design technologies enables development of proprietary automotive Micro-LED modules in China.
Self-sufficient supply chain
- Everything from chips to modules to certification can be handled within China. → Reduces dependence on foreign countries.
Cost and speed competitiveness
- Shorter certification and mass production conversion time. → Enhanced negotiating power with global OEMs.
Competitive pressure
- Possible to put pressure on Taiwanese, Korean, and U.S. companies such as AUO, PlayNitride, and JBD in terms of cost and supply speed.

4. Scenario for the next 3-5 years

Period	Change Forecast
2025-2026	Integration of Lumileds and production and certification lines in China, demonstration of initial automotive Micro-LED modules
Year 2027	Full-scale application of Micro-LED modules in HUDs, transparent displays, and lighting for finished vehicles in China (Geely, BYD, etc.)
After 2028	Expansion of overseas OEM supply, possible reorganization of global Micro-LED market share for vehicles into a China-centric structure

Joohan Kim, Analyst at UBI Research (joohanus@ubiresearch.com)

UBI Research’s Micro Display Report

영문 풋터