screen on the Google
Nexus One smartphone using the
RGBG system of the
PenTile Matrix Family media player in
Aachen,
Germany Almost all OLED manufacturers rely on material deposition equipment that is only made by a handful of companies, the most notable one being
Canon Tokki, a unit of
Canon Inc. although Ulvac and Sunic System are also notable. Canon Tokki is reported to have a near-monopoly of the giant OLED-manufacturing vacuum machines, notable for their size.
Apple has relied solely on Canon Tokki in its bid to introduce its own OLED displays for the iPhones released in 2017. The electroluminescent materials needed for OLEDs are also made by a handful of companies, some of them being Merck, Universal Display Corporation and LG Chem. The machines that apply these materials can operate continuously for 5–6 days, and can process a mother substrate in 5 minutes. OLED displays are mainly made by Samsung Display and LG Display. Such portable display applications favor the high light output of OLEDs for readability in sunlight and their low power drain. Portable displays are also used intermittently, so the lower lifespan of organic displays is less of an issue. Prototypes have been made of flexible and rollable displays which use OLEDs' unique characteristics. Applications in flexible signs and lighting are also being developed. OLED lighting offers several advantages over LED lighting, such as higher quality illumination, more diffuse light source, and panel shapes. and
Novaled AG based in Dresden, Germany, introduced a line of OLED desk lamps called "Victory" in September, 2011. The first OLED display on a cell phone was
Motorola's
Timeport P8767 in 2000, although this technology was not widely adopted until a few years later appearing on many Motorola and
Samsung color and
clamshell cell phones, as well as some
HTC,
LG and
Sony Ericsson models.
Nokia introduced OLED mobile phones in the late 2000s including the
N85 and the
N86 8MP, both of which feature an AMOLED display. OLED technology can also be found in digital media players such as the Creative
ZEN V, the
iriver clix, the
Zune HD and the Sony
Walkman X Series. The
Google and HTC
Nexus One smartphone includes an AMOLED screen, as does HTC's own
Desire and
Legend phones. However, due to supply shortages of the Samsung-produced displays, certain HTC models will use Sony's
SLCD displays in the future, while the Google and Samsung
Nexus S smartphone will use "Super Clear LCD" instead in some countries. OLED displays were used in watches made by Fossil (JR-9465) and Diesel (DZ-7086). Other manufacturers of OLED panels include
Anwell Technologies Limited (Hong Kong),
AU Optronics (Taiwan),
Chimei Innolux Corporation (Taiwan),
LG (Korea), and others.
DuPont stated in a press release in May 2010, that they can produce a 50-inch OLED TV in two minutes with a new printing technology. If this can be scaled up in terms of manufacturing, then the total cost of OLED TVs would be greatly reduced. DuPont also states that OLED TVs made with this less expensive technology can last up to 15 years if left on for a normal eight-hour day. The use of OLEDs may be subject to
patents held by
Universal Display Corporation,
Eastman Kodak,
DuPont,
General Electric,
Royal Philips Electronics, numerous universities and others. By 2008, thousands of patents associated with OLEDs, came from larger corporations and smaller technology companies. Samsung demonstrated a roll-out display in 2016. On 31 October 2018,
Royole, a Chinese electronics company, unveiled the world's first foldable screen phone featuring a flexible OLED display. On 20 February 2019,
Samsung announced the
Samsung Galaxy Fold with a foldable OLED display from Samsung Display, its majority-owned subsidiary. At
MWC 2019 on 25 February 2019,
Huawei announced the
Huawei Mate X featuring a foldable OLED display from
BOE. The 2010s also saw the wide adoption of
tracking gate-line in pixel (TGP), which moves the driving circuitry from the borders of the display to in between the display's pixels, allowing for narrow bezels. In 2023 the German startup Inuru has announced to manufacture low-cost OLED with printing for packaging and fashion applications.
Fashion Textiles incorporating OLEDs are an innovation in the fashion world and pose for a way to integrate lighting to bring inert objects to a whole new level of fashion. The hope is to combine the comfort and low cost properties of textile with the OLEDs properties of illumination and low energy consumption. Although this scenario of illuminated clothing is highly plausible, challenges are still a road block. Some issues include: the lifetime of the OLED, rigidness of flexible foil substrates, and the lack of research in making more fabric like photonic textiles.
Automotive The number of automakers using OLEDs is still rare and limited to the high-end of the market. For example, the 2010
Lexus RX features an OLED display instead of a thin film transistor (TFT-LCD) display. A Japanese manufacturer
Pioneer Electronic Corporation produced the first car stereos with a monochrome OLED display, which was also the world's first OLED product. The Aston Martin DB9 incorporated the world's first automotive OLED display, which was manufactured by
Yazaki, followed by the 2004 Jeep Grand Cherokee and the Chevrolet Corvette C6. The 2015
Hyundai Sonata and
Kia Soul EV use a 3.5-inch white PMOLED display.
Company-specific applications Samsung By 2004, Samsung Display, a subsidiary of
South Korea's largest
conglomerate and a former Samsung-
NEC joint venture, was the world's largest OLED manufacturer, producing 40% of the OLED displays made in the world, and as of 2010, has a 98% share of the global
AMOLED market. The company is leading the world of OLED industry, generating $100.2million out of the total $475million revenues in the global OLED market in 2006. As of 2006, it held more than 600 American patents and more than 2800 international patents, making it the largest owner of AMOLED technology patents. This OLED featured the highest resolution at the time, of 6.22million pixels. In addition, the company adopted active matrix-based technology for its low power consumption and high-resolution qualities. This was exceeded in January 2008, when Samsung showcased the world's largest and thinnest OLED TV at the time, at 31inches (78cm) and 4.3mm. In May 2008, Samsung unveiled an ultra-thin 12.1inch (30cm) laptop OLED display concept, with a 1,280×768 resolution with infinite contrast ratio. According to Woo Jong Lee, Vice President of the Mobile Display Marketing Team at Samsung SDI, the company expected OLED displays to be used in notebook PCs as soon as 2010. In October 2008, Samsung showcased the world's thinnest OLED display, also the first to be "flappable" and bendable. It measures just 0.05mm (thinner than paper), yet a Samsung staff member said that it is "technically possible to make the panel thinner". and an animated OLED display in a photo ID card. Samsung's 2010 AMOLED smartphones used their
Super AMOLED trademark, with the
Samsung Wave S8500 and
Samsung i9000 Galaxy S being launched in June 2010. In January 2011, Samsung announced their Super AMOLED Plus displays, which offer several advances over the older Super AMOLED displays: real stripe matrix (50% more sub pixels), thinner form factor, brighter image and an 18% reduction in energy consumption. At CES 2012, Samsung introduced the first 55" TV screen that uses Super OLED technology. On 8 January 2013, at CES Samsung unveiled a unique curved 4K Ultra S9 OLED television, which they state provides an "IMAX-like experience" for viewers. On 13 August 2013, Samsung announced availability of a 55-inch curved OLED TV (model KN55S9C) in the US at a price point of $8999.99. On 6 September 2013, Samsung launched its 55-inch curved OLED TV (model KE55S9C) in the United Kingdom with John Lewis. Samsung introduced the
Galaxy Round smartphone in the Korean market in October 2013. The device features a 1080p screen, measuring , that curves on the vertical axis in a rounded case. The corporation has promoted the following advantages: A new feature called "Round Interaction" that allows users to look at information by tilting the handset on a flat surface with the screen off, and the feel of one continuous transition when the user switches between home screens. Samsung released a new line of OLED TVs in 2022, its first using the technology since 2013. They use panels sourced from Samsung Display; previously, LG was the sole manufacturer of OLED panels for TVs.
Sony , the world's first OLED TV Other Sony products to feature OLED screens include the MZ-RH1 portable minidisc recorder, released in 2006 and the
Walkman X Series. At the 2007,
Las Vegas Consumer Electronics Show (CES), Sony showcased a , (resolution 960×540) and , full HD resolution at OLED TV models. Both claimed 1,000,000:1
contrast ratios and total thicknesses (including bezels) of 5mm. In April 2007, Sony announced it would manufacture 1000 OLED TVs per month for market testing purposes. On 1 October 2007, Sony announced that the model
XEL-1, was the first commercial OLED TV and it was released in Japan in December 2007. In May 2007, Sony publicly unveiled a video of a flexible OLED screen which is only 0.3 millimeters thick. At the Display 2008 exhibition, Sony demonstrated a 0.2mm thick display with a resolution of 320×200 pixels and a 0.3mm thick display with 960×540 pixels resolution, one-tenth the thickness of the XEL-1. In July 2008, a Japanese government body said it would fund a joint project of leading firms, which is to develop a key technology to produce large, energy-saving organic displays. The project involves one laboratory and 10 companies including Sony Corp.
NEDO said the project was aimed at developing a core technology to mass-produce 40inch or larger OLED displays in the late 2010s. In October 2008, Sony published results of research it carried out with the
Max Planck Institute over the possibility of mass-market bending displays, which could replace rigid LCDs and plasma screens. Eventually, bendable,
see-through displays could be stacked to produce 3D images with much greater contrast ratios and
viewing angles than existing products. Sony exhibited a 24.5" (62cm) prototype OLED 3D television during the Consumer Electronics Show in January 2010. In January 2011, Sony announced the
PlayStation Vita handheld game console (the successor to the
PSP) will feature a 5-inch OLED screen. On 17 February 2011, Sony announced its 25" (63.5cm) OLED Professional Reference Monitor aimed at the Cinema and high end Drama Post Production market. On 25 June 2012, Sony and Panasonic announced a joint venture for creating low cost mass production OLED televisions by 2013. Sony unveiled its first OLED TV since 2008 at
CES 2017 called A1E. It revealed two other models in 2018 one at
CES 2018 called A8F and other a Master Series TV called A9F. At
CES 2019 they unveiled another two models one the A8G and the other another Bravia Series TV called A9G. Then, at
CES 2020, they revealed the A8H, which was effectively an A9G in terms of picture quality but with some compromises due to its lower cost. At the same event, they also revealed a 48-inch version of the A9G, making this its smallest OLED TV since the XEL-1.
LG On 9 April 2009, LG acquired
Kodak's OLED business and started to utilize white OLED technology. As of 2010,
LG Electronics produced one model of OLED television, the 15EL9500 and had announced a OLED 3D television for March 2011. On 26 December 2011, LG officially announced the "world's largest OLED panel" and featured it at CES 2012. In late 2012, LG announces the launch of the 55EM9600 OLED television in Australia. In January 2015, LG Display signed a long-term agreement with Universal Display Corporation for the supply of OLED materials and the right to use their patented OLED emitters. As of 2022, LG produces the world's largest OLED TV, at 97 inches.
Recent Developments (2026) In 2026, LG introduced several innovations across its OLED product line, including the "Hyper Radiant Color Tech" picture system and an updated "Wallpaper" OLED design.
Hyper Radiant Color Tech In 2026, LG introduced "Hyper Radiant Color Tech" as an integrated picture system for its OLED television models. The technology represents the LG OLED latest innovation that focus on brightness, black levels, and reflection-free performance This metric is intended to maintain contrast levels when the display is used in high-ambient-light conditions.
Perfect black always "Perfect Black Always" ensures that black levels remain consistent regardless of the surrounding brightness. UL Solutions verified that the displays maintain black levels below 0.24 nits while exposed to 500 lux of ambient light, following the IDMS 11.5 measurement standards.
Perfect color The "Perfect Color" component focuses on color accuracy and volume. The most of 2026 OLED models support 100% color fidelity and 100% color volume under 500 lux of ambient light. UL verified this performance, noting a color consistency level exceeding 99% as room brightness increases .
Brightness booster The "Brightness Booster" feature pairs the alpha 11 AI processor with a Light Boosting Algorithm. This algorithm analyzes individual image frames to apply localized contrast enhancement, which increases the luminance of specific areas to maintain detail visibility across the entire screen.. LG marketed the system as the world's first "true wireless" TV to transmit 4K video at 165 Hz refresh rates without physical cabling. The W6 series also includes support for multichannel audio and gaming features, such as variable refresh rate (VRR) through NVIDIA G-SYNC and AMD FreeSync Premium.
Recom Group On 6 January 2011, Los Angeles-based technology company Recom Group introduced the first small screen consumer application of the OLED at the Consumer Electronics Show in Las Vegas. This was a 2.8" (7cm) OLED display being used as a wearable video name tag. At the Consumer Electronics Show in 2012, Recom Group introduced the world's first video mic flag incorporating three 2.8" (7cm) OLED displays on a standard broadcaster's mic flag. The video mic flag allowed video content and advertising to be shown on a broadcasters standard mic flag.
Dell On 6 January 2016, Dell announced the Ultrasharp UP3017Q OLED monitor at the Consumer Electronics Show in Las Vegas. The monitor was announced to feature a 4K UHD OLED panel with a 120Hz refresh rate, 0.1 millisecond response time, and a contrast ratio of 400,000:1. The monitor was set to sell at a price of $4,999 and release in March, 2016, just a few months later. As the end of March rolled around, the monitor was not released to the market and Dell did not speak on reasons for the delay. Reports suggested that Dell canceled the monitor as the company was unhappy with the image quality of the OLED panel, especially the amount of color drift that it displayed when viewed from the sides. On 13 April 2017, Dell finally released the UP3017Q OLED monitor to the market at a price of $3,499 ($1,500 less than its original spoken price of $4,999 at CES 2016). In addition to the price drop, the monitor featured a 60Hz refresh rate and a contrast ratio of 1,000,000:1. As of June, 2017, the monitor is no longer available to purchase from Dell's website.
Apple Apple began using OLED panels in its watches in 2015 and in its laptops in 2016 with the introduction of an OLED touchbar to the MacBook Pro. In 2017, Apple announced the introduction of their tenth anniversary
iPhone X with their own optimized OLED display licensed from Universal Display Corporation. With the exception of the
iPhone SE line, iPhone XR and iPhone 11, all iPhones released since then have also featured OLED displays. In 2024, Apple announced the
7th generation iPad Pro, which featured a "tandem OLED" panel in an attempt to increase the panel's brightness.
Nintendo A third model of
Nintendo's
Switch, a hybrid gaming system, features an OLED panel in place of the original model's
LCD panel. Announced in the summer of 2021, it was released on 8 October 2021.
Miscellaneous Applications Chemo sensors OLEDs have been found to be able to detect oxygen, hydrocarbons, immunoassays, and glucose through fluoresce and light emittance. Oxygen detection through OLEDs is done by photoluminescence, electroluminescence, and a photodetector. The sensor film is places on one side of a substrate, and on the other side a transparent anode is placed above it. On top of that organic layers, and then finally, a cathode is placed to complete the sensor. A dye is placed to detect the light intensity at a specific wavelength. This dye often can quench the oxygen present allowing for a change in intensity being detected by the photodetector, which is above the cathode. The hydrocarbon sensors work for aliphatic hydrocarbons, most commonly methanol and ethanol. In a similar set up to the oxygen sensing devices, the OLEDs allow for a light to be emitted that can be linearly related to the light intensity detected by a photodetector. Immunosensors detect the presence of immunoassays through having the photoluminescence diminish as more antibodies interact with the sensor. Another method would be detecting the glucose oxide byproducts. == Research ==