rollable display screens factory

The OLED (Organic Light Emitting Diodes) display emits light by conducting electricity to the RGB organic light emitting materials that are sandwiched between the electrodes.

Since OLEDs are self-emissive displays, they don"t require backlight units like LCD displays. OLEDs have many outstanding characteristics such as thin and flexible form factor, lightweight, high image quality.

In particular, flexible OLED displays, which use flexible substrates such as polyimide instead of glass, are foldable or rollable, so demand is increasing mainly for mobile devices.

3In contrast to the standard flat screen displays used in several electrical gadgets, a flexible display or bendable display is an electronic visual display manufactured by flexible display brands. Several consumer electronics firms have expressed enthusiasm in using this display technologies in e-readers, smart phones, and other electronic goods in recent times. Such screens may be rolled up like a scroll without distorting the image or text. Electronic ink, Gyricon, Organic LCD, and OLED are among the technologies used to create a bendable display.

With the flat panel screen having been extensively used for more than 40 years, many desirable advances in display technology have been made, with the goal of creating lighter, thinner products that are simpler to carry and store. Scientists and engineers think that flexible flat panel display innovation has a large commercial possibility in the future, thanks to recent advancements in flexible display technique.

Flexible displays offered by the flexible display brands are still somewhat costly as contrasted to their rigid equivalents, and visual quality is frequently sacrificed. When the screen is bent at a specific angle, this is extremely evident. However, in comparison to standard displays, flexible screens have a shorter lifespan.

Current models should endure a long time for the majority of users’ demands. However, most flexible display brands still require tackling this issue, particularly given the rising pricing of flexible display devices.

views itself as a supplier of intelligent vertical systems underpinned by premium display technology as an optoelectronics specialist. The company’s vast expertise, innovative skills, and corporate sustainability set it apart and set it out from the competition.

In terms of display as a networking and communication interface, AUO offers a wide range of alternatives in retail, healthcare, transport, and other industries, with the goal of forming eco-systems with partnerships across all sectors and ushering the world into a new smarter lifestyle.

Japan Display Incorporateddevelops, designs, manufactures, and sells displays where a user interface is required to transmit a large amount of data in a short amount of time and to a worldwide market. They design engaging settings that go above and beyond the ordinary, enrich people’s lives, and stir their hearts.

LG Displayis the world’s top inventor of display technologies, comprising TFT-LCD and OLED screens, as well as the worldwide leader in OLED lighting. The firm makes display screens in a variety of dimensions and standards for usage in televisions, laptop computers, desktop workstations, and other purposes, such as tablets and mobile phones. It also manufactures OLED light screens for the automobile and interior decorating industries.

Visionoxis the globe’s renowned provider of sophisticated display systems that are both integrated and interactive. The company’s objective is to lead China’s OLED industry via technical innovation” and its ambition is to “push limits to enrich the experience of eyesight.

FlexEnable’s glass-free organic LCD (OLCD) delivers high-brightness, long lifetime flexible displays that are low cost and scalable to large areas, while also being thin, lightweight and shatterproof.

OLCD is a plastic display technology with full colour and video-rate capability. It enables product companies to create striking designs and realise novel use cases by merging the display into the product design rather than accommodating it by the design.

Unlike flexible OLED displays, which are predominantly adopted in flagship smartphones and smartwatches, OLCD opens up the use of flexible displays to a wider range of mass-market applications. It has several attributes that make it better suited than flexible OLED to applications across large-area consumer electronics, smart home appliances, automotive, notebooks and tablets, and digital signage.

As with glass-based LCD, the lifetime of OLCD is independent of the display brightness, because it is achieved through transmission of a separate light source (the backlight), rather than emission of its own light. For example OLCD can be made ultra-bright for viewing in daylight conditions without affecting the display lifetime – an important requirement for vehicle surface-integrated displays.

OLCD is the lowest cost flexible display technology – it is three to four times lower cost that flexible OLED today. This is because it makes use of existing display factories and supply chain and deploys a low temperature process that results in low manufacturing costs and high yield.

Unlike other flexible display approaches, OLCD is naturally scalable to large sizes. It can be made as small or as large as the manufacturing equipment used for flat panel displays allows.

The flexibility of OLCD allows an ultra-narrow bezel to be implemented by folding down the borders behind the display. This brings huge value in applications like notebooks and tablets where borderless means bigger displays for the same sized device. The bezel size allowed by OLCD is independent of the display size or resolution. In addition, OLCD can make a notebook up to 100g lighter and 0.5mm thinner.

OLCD is the key to the fabrication of ultra-high contrast dual cell displays with true pixel level dimming, offering OLED-like performance at a fraction of the cost. The extremely thin OLCD substrate brings advantages in cost, viewing angle and module thickness compared to glass displays. At the same time OLCD retains the flexibility required for applications such as surface-integrated automotive displays.

Due to its unique properties, OLCD has the potential to transform how and where displays are used in products. The videos below give a glimpse into this innovative technology.

FlexEnable’s award-winning flexible technology platform, including our unique FlexiOM™ materials, brings transformational possibilities to products including AR and VR optics, ePrivacy screens, automotive smart windows and displays. The complete low temperature manufacturing process allows, for the first time, commonly available and optically ideal flexible bio-degradable substrates such as TAC film to be used instead of glass. This innovative technology is used to make active matrix flexible Organic Liquid Crystal Displays(OLCDs) and flexible active optical films which are thin, light and conformable to almost any surface.

Today FlexEnable has around 600 patents and patent applications globally for OTFT and Liquid Crystal (LC) Cell materials, processes and architectures. The company has technology transfer programmes underway with several leading display manufacturers in Asia as well as commercial programmes with some of the world’s biggest brands in consumer electronics.

Our OTFT platform is the most flexible array technology available and offers unique benefits to display makers. The scalable organic transistor processes have been specifically designed to be implemented on today’s flat panel display manufacturing lines and are already proven for mass production. They are the lowest cost way to produce area-scalable active-matrix flexible displays and optics. Through our Technology Transfer and Licensing programme we help manufacturing partners not only achieve product innovation, but also reduce their environmental impact by implementing sustainable manufacturing.

Our unique manufacturing approach minimises the environmental impact compared to today’s glass-based display production. We do this by reducing energy consumption, reusing equipment, and using recyclable materials. For example, in comparison to glass displays, OLCD brings huge energy savings primarily as a result of the incredibly low manufacturing temperatures used:

Reduce – At 100°C, the reduced manufacturing temperatures of organic transistors compared to 300°C-500°C of silicon TFTs reduces energy consumption in production compared to glass displays. The combined energy savings of low temperatures and CVD-free processes of OLCD reduce production energy by around 25% compared to glass LCD. With a medium-sized (Gen 6) display factory consuming around 500 GWh/year, this major energy saving also results in a carbon footprint reduction of 67,000 tonnes of CO2 per year for a single factory. If applied industry-wide the energy savings alone would be enough to power 1 million homes.

Reuse – OLCD is purposefully designed to re-use existing factories originally built to make glass displays. This prolongs the useful economic life of existing installations by giving them the capability to manufacture highly disruptive flexible display technology and then rapidly scale volume production.

Recycle – The low process temperatures allow a plastic film known as TAC (Tri acetyl cellulose) to be used as the substrate instead of glass. TAC is a widely available bioplastic made of a cellulose derived from the same raw material as paper, is highly recyclable and biodegradable, and already used in the displays supply chain. During production of the flexible displays, the TAC film is stuck to a sheet of display glass. After production is complete the flexible display is removed, and the glass is reused for the next display.

A flexible display or rollable display is an electronic visual display which is flexible in nature, as opposed to the traditional flat screen displays used in most electronic devices.e-readers, mobile phones and other consumer electronics. Such screens can be rolled up like a scroll without the image or text being distorted.electronic ink, Gyricon, Organic LCD, and OLED.

Electronic paper displays which can be rolled up have been developed by E Ink. At CES 2006, Philips showed a rollable display prototype, with a screen capable of retaining an image for several months without electricity.pixel rollable display based on E Ink’s electrophoretic technology.flexible organic light-emitting diode displays have been demonstrated.electronic paper wristwatch. A rollable display is an important part of the development of the roll-away computer.

With the flat panel display having already been widely used more than 40 years, there have been many desired changes in the display technology, focusing on developing a lighter, thinner product that was easier to carry and store. Through the development of rollable displays in recent years, scientists and engineers agree that flexible flat panel display technology has huge market potential in the future.

Flexible electronic paper (e-paper) based displays were the first flexible displays conceptualized and prototyped. Though this form of flexible displays has a long history and were attempted by many companies, it is only recently that this technology began to see commercial implementations slated for mass production to be used in consumer electronic devices.

The concept of developing a flexible display was first put forth by Xerox PARC (Palo Alto Research Company). In 1974, Nicholas K. Sheridon, a PARC employee, made a major breakthrough in flexible display technology and produced the first flexible e-paper display. Dubbed Gyricon, this new display technology was designed to mimic the properties of paper, but married with the capacity to display dynamic digital images. Sheridon envisioned the advent of paperless offices and sought commercial applications for Gyricon.

In 2005, Arizona State University opened a 250,000 square foot facility dedicated to flexible display research named the ASU Flexible Display Center (FDC). ASU received $43.7 million from the U.S. Army Research Laboratory (ARL) towards the development of this research facility in February 2004.demonstration later that year.Hewlett Packard demonstrated a prototype flexible e-paper from the Flexible Display Center at the university.

Between 2004–2008, ASU developed its first small-scale flexible displays.U.S. Army funds ASU’s development of the flexible display, the center’s focus is on commercial applications.

This company develops and manufactures monochrome plastic flexible displays in various sizes based on its proprietary organic thin film transistor (OTFT) technology. They have also demonstrated their ability to produce colour displays with this technology, however they are currently not capable of manufacturing them on a large scale.Dresden, Germany, which was the first factory of its kind to be built – dedicated to the high volume manufacture of organic electronics.plastic and do not contain glass. They are also lighter and thinner than glass-based displays and low-power. Applications of this flexible display technology include signage,wristwatches and wearable devices

In 2004, a team led by Prof. Roel Vertegaal at Queen"s University"s Human Media Lab in Canada developed PaperWindows,Organic User Interface. Since full-colour, US Letter-sized displays were not available at the time, PaperWindows deployed a form of active projection mapping of computer windows on real paper documents that worked together as one computer through 3D tracking. At a lecture to the Gyricon and Human-Computer Interaction teams at Xerox PARC on 4 May 2007, Prof. Vertegaal publicly introduced the term Organic User Interface (OUI) as a means of describing the implications of non-flat display technologies on user interfaces of the future: paper computers, flexible form factors for computing devices, but also encompassing rigid display objects of any shape, with wrap-around, skin-like displays. The lecture was published a year later as part of a special issue on Organic User InterfacesCommunications of the ACM. In May 2010, the Human Media Lab partnered with ASU"s Flexible Display Center to produce PaperPhone,MorePhone

Research and development into flexible OLED displays largely began in the late 2000s with the main intentions of implementing this technology in mobile devices. However, this technology has recently made an appearance, to a moderate extent, in consumer television displays as well.

Nokia first conceptualized the application of flexible OLED displays in mobile phone with the Nokia Morph concept mobile phone. Released to the press in February 2008, the Morph concept was project Nokia had co-developed with the University of Cambridge.nanotechnology, it pioneered the concept of utilizing a flexible video display in a consumer electronics device.London, alongside Nokia’s new range of Windows Phone 7 devices.

Sony Electronics expressed interest for research and development towards a flexible display video display since 2005.RIKEN (the Institute of Physical and Chemical Research), Sony promised to commercialize this technology in TVs and cellphones sometime around 2010.TFT-driven OLED display.

In January 2013, Samsung exposed its brand new, unnamed product during the company"s keynote address at CES in Las Vegas. Brian Berkeley, the senior vice president of Samsung"s display lab in San Jose, California had announced the development of flexible displays. He said "the technology will let the company"s partners make bendable, rollable, and foldable displays," and he demonstrated how the new phone can be rollable and flexible during his speech.

During Samsung"s CES 2013 keynote presentation, two prototype mobile devices codenamed "Youm" that incorporated the flexible AMOLED display technology were shown to the public.OLED screen giving this phone deeper blacks and a higher overall contrast ratio with better power efficiency than traditional LCD displays.LCD displays. Samsung stated that "Youm" panels will be seen in the market in a short time and production will commence in 2013.

The Flexible Display Center (FDC) at Arizona State University announced a continued effort in forwarding flexible displays in 2012.Army Research Lab scientists, ASU announced that it has successfully manufactured the world"s largest flexible OLED display using thin-film transistor (TFTs) technology.

In January 2019, Chinese manufacturer Xiaomi showed a foldable smartphone prototype.Xiaomi demoed the device in a video on the Weibo social network. The device features a large foldable display that curves 180 degrees inwards on two sides. The tablet turns into a smartphone, with a screen diagonal of 4,5 inch, adjusting the user interface on the fly.

Flexible displays have many advantages over glass: better durability, lighter weight, thinner as plastic, and can be perfectly curved and used in many devices.glass and rollable display is that the display area of a rollable display can be bigger than the device itself; If a flexible device measuring, for example, 5 inches in diagonal and a roll of 7.5mm, it can be stored in a device smaller than the screen itself and close to 15mm in thickness.

Flexible screens can open the doors to novel and alternative authentication schemes by emphasizing the interaction between the user and the touch screen. In “Bend Passwords: Using Gestures to Authenticate on Flexible Devices,” the authors introduce a new method called Bend Passwords where users perform bending gestures and deform the touch screen to unlock the phone. Their work and research points to Bend Passwords possibly becoming a new way to keep smartphones secure alongside the popularization of flexible displays.

Flexible displays using electronic paper technology commonly use Electrophoretic or Electrowetting technologies. However, each type of flexible electronic paper vary in specification due to different implementation techniques by different companies.

The flexible electronic paper display technology co-developed by Arizona State University and HP employs a manufacturing process developed by HP Labs called Self-Aligned Imprint Lithography (SAIL).

The flexible electronic paper display announced by AUO is unique as it is the only solar powered variant. A separate rechargeable battery is also attached when solar charging is unavailable.

Many of the e-paper based flexible displays are based on OLED technology and its variants. Though this technology is relatively new in comparison with e-paper based flexible displays, implementation of OLED flexible displays saw considerable growth in the last few years.

In May 2011, Human Media Lab at Queen"s University in Canada introduced PaperPhone, the first flexible smartphone, in partnership with the Arizona State University Flexible Display Center.

At CES 2013, Samsung showcased the two handsets which incorporates AMOLED flexible display technology during its keynote presentation, the Youm and an unnamed Windows Phone 8 prototype device.Galaxy Note Edge,Samsung Galaxy S series devices.

LG Electronics and Samsung Electronics both introduced curved OLED televisions with a curved display at CES 2013 hours apart from each other.The Verge noted the subtle curve on 55" Samsung OLED TV allowed it to have a "more panoramic, more immersive viewing experience, and actually improves viewing angles from the side."

Crawford, Gregory P., ed. (2005). Flexible flat panel displays (Reprinted with corrections. ed.). Chichester, West Sussex, England: John Wiley & Sons. p. 2. ISBN 978-0470870488.

Thryft, Ann R. (7 June 2012). "All-Plastic Electronics Power Flexible Color Display". Design News. Archived from the original on 31 March 2019. Retrieved 24 April 2013.

Lahey, Byron; Girouard, Audrey; Burleson, Winslow and Vertegaal, Roel (May 2011). PaperPhone: Understanding the Use of Bend Gestures in Mobile Devices with Flexible Electronic Paper Displays, Proceedings of the SIGCHI Conference on Human Factors in Computing Systems, Pages 1303–1312.

Lee, Reuben (10 January 2013). "Samsung shows off flexible display phones at CES keynote". CNET. Archived from the original on 17 February 2013. Retrieved 12 February 2013.

Sasaoka, Tatsuya; Sekiya, Mitsunobu; Yumoto, Akira; Yamada, Jiro; Hirano, Takashi; Iwase, Yuichi; Yamada, Takao; Ishibashi, Tadashi; Mori, Takao; Asano, Mitsuru; Tamura, Shinichiro; Urabe, Tetsuo (1 January 2001). "24.4L: Late-News Paper: A 13.0-inch AM-OLED Display with Top Emitting Structure and Adaptive Current Mode Programmed Pixel Circuit (TAC)". SID Symposium Digest of Technical Papers. 32 (1): 384. doi:10.1889/1.1831876. S2CID 59976823.

Drzaic, P.; Comiskey, B.; Albert, J. D.; Zhang, L.; Loxley, A.; Feeney, R.; Jacobson, J. (1 January 1998). "44.3L: A Printed and Rollable Bistable Electronic Display". SID Symposium Digest of Technical Papers. 29 (1): 1131. doi:10.1889/1.1833686. S2CID 135723096.

Lowensohn, Josh (9 January 2013). "Eyes-on: Samsung"s Youm flexible-display tech at CES 2013". CNET. Archived from the original on 26 November 2013. Retrieved 12 February 2013.

Flexible LED displays panels are made of premium PCB and rubber material. Extremely soft, suitable for creative installations in any size and shape. Features compact design, 5 mm thickness, and magnetic connections. Easily fixed anywhere, including shopping centers, hotels, stadiums, etc. Viewpointec is devoted to providing the best flexible LED screen solutions.

We are professionalflexible LED screen manufacturerswith over 25 years of experience. No design is too complex and no project is too large for us to implement. Our team will work closely in consultation with you and other relevant project consultants to deliver stunningflexible LED screen displays.

Further, Viewpointec flexible LED displays are produced from our very ownflexible video wall factory.This gives us full control over production and enables us to maintain high quality standards. We also have the capacity to produce flexible LED screens in bulk and in any size that your display may require.

A flexible LED screen is made up of LED pixels pitched on a pliable material like rubber or PCB. It is insulated using a flexible transparent material on both sides to protect the LED circuit from getting damaged. This structure makes flexible LED screens highly resilient. They can be contorted during installation and still deliver crisp images.

A flexible video wall consists of manyfoldable LED screensmounted together. It can take different shapes depending on how the individual screens are arranged. The flexible LED screen display panels are joined using magnets along their borderlines to create a seamless video wall display.

We offer flexible LED displays that are tailor-made to fit in your space and captivate audiences. Whether it’s a 3D gaming lounge or a conference, you can rely on our flexible LED screens to deliver high-resolution images at all times. They are available in different dimensions and pixel pitch options depending on your needs.

Viewpointec flex LED screen modules are made of durable lightweight rubber. They are easy to install and can be mounted as far as 15 meters from a remote power source to provide you with more installation options. Additionally, we can create customized flex tiles for you that are trimmed and tilted in special angles for even more adventurous displays.

A giant curved LED advertising screen is a great choice when you need to reach a wide audience from a focal point. We can help you achieve this by custom-making one to your preferred size and design. It would comprise several standard-sized flexible LED screens mounted together to form a seamless giant curved LED display.

Our giant curved LED advertising screens are lightweight and display dynamic images in true Viewpointec style. They can be mounted on their own or supported by a custom frame. Further, all the flexible screens that make up the giant curved advertising screen have internal thermal management. This makes the giant advertising screen more durable as the LEDs would not overheat even with long durations of use.

Our flexible LED screens thrive in indoor setups of different kinds. They display bright, high-contrast images with distinct clarity. Moreover, they are versatile enough and can be installed in hallways, meeting rooms,display windows, or even hanging from a ceiling. If you are looking to catch your customers’ attention, this would certainly be an effective solution for you.

Viewpointec supplies flexible LED displays in China and to clients across the world. Our indoor LED advertising displays are affordable and customizable to suit any premises. We also guarantee you impeccable service and timely delivery on all the projects that you entrust us with.

When it comes to boosting your business, one of the best tools to invest in is a flexible LED display. These LED displays are designed to feature LED pixels on a rubber or PCB material and are used to display eye-catching images.

You also have the option of investing in a flexible video wall that makes it easier to run ads and other materials. These LED displays come in handy when attracting new clients to your business and are designed to communicate what you offer. Investing in these displays proves to be beneficial in a variety of ways that you should take advantage of.

Flexible LED displays are designed in such a way that they offer the best images and videos. The quality featured on these displays allows you to let your creativity shine through. You get to easily work on designs that are aligned with your business and the products or services you offer.

These displays provide the perfect platform for you to showcase the designs and let others into your business. Given that you can easily customize the pixel pitch and brightness on these displays, creating great designs is quite easy. They give you great flexibility and allow you to experiment with different designs to see what works for you.

Alongside the incredible images and designs, tell your prospective clients what they stand to gain once they visit your business. This is a great way to advertise your business and reach out to a whole new group of potential clients. Your displays will offer the perfect platform for you to do this and attract more people and business to you.

As a business, finding cost-effective solutions is always number one on the list. This is where flexible displays come in. They are designed to be budget-friendly and great investments overall.

They offer great returns on investment when used right by attracting potential customers to your business. Given that all the Viewpointec LED displays are manufactured in-house, we can offer more competitive prices. Our LED displays will offer great quality images and videos for a friendly price allowing you to implement them in your business.

Flexible LED displays come with a straightforward implementation that does not require you to jump through the hoops. They are very easy to install which means that you can set them up yourself. They come mounted on a solid substrate that allows them to take up the desired space you are working with.

LED lights contain no toxic gases like argon or mercury, and they are recyclable. Most and the display options are easy to print, and with a energy-efficient alternative, it is environmentally friendly. Most rollable LEDs are energy-efficient, and easy to use.

This is one of the main advantages of rolled LED displaying great deals, and people can change the content at a additional time. For instance, rollable LED boards are a great way to attract customers and maintain a brand"s image. Buyers can also roll up LED message board, rollable LED boards are a great way to attract attention to their message, or displaying ads at a great time.

A flexible display has longevity, which allows it to be used in many ways. For example, a flexible LED display can be used in indoor and outdoor, as well as other indoor and outdoor displays.

Stocking a range of flexible display options for your customers will be able to find more information at the same time. LED displays are programmable and can be programmable to allows different users to enhance a brand experience.

This type of signage allows businesses to display more information and is at the right time. For your customers, there are flexible options such as flexible digital signage, which allows businesses to display products and services.

It ’ s easy to set up and allows the customers to display customized products. For your owners who own bars, restaurants or beauty salons, have a flexible range of flexible display options at Alibaba.com.

New York, Oct. 03, 2022 (GLOBE NEWSWIRE) -- Reportlinker.com announces the release of the report "Flexible Display Global Market Report 2022" - https://www.reportlinker.com/p06323462/?utm_source=GNW

The global flexible display market is expected to grow from $10.58 billion in 2021 to $14.34 billion in 2022 at a compound annual growth rate (CAGR) of 35.6%. The flexible display market is expected to grow to $44.72 billion in 2026 at a CAGR of 32.9%.

The flexible display market consists of sales of flexible displays by entities (organizations, sole traders, and partnerships) that are used in virtual reality (VR) headsets, digital cameras, laptops, and televisions.A flexible display refers to an electronic display printed on a foldable plastic membrane that can easily be twisted.

These displays can withstand being folded, bent, and twisted, and they are more flexible as compared to a flat display. These have better durability and are lightweight in nature.

The main types of flexible display are OLED (organic light-emitting diodes), LCD (liquid-crystal display), EPD (electronic paper display), and others.The OLED-based flexible displays are used in televisions, computer systems, laptops, and smartphones owing to their better image quality, high degree of flexibility, and consumption of less energy.

OLED refers to a light-emitting technology designed by placing organic films between two conductors.The different form factors include curved display, bendable and foldable display, and rollable display.

North America was the largest region in the flexible display market in 2021. The regions covered in the flexible display market report are Asia-Pacific, Western Europe, Eastern Europe, North America, South America, Middle East and Africa.

The flexible display market research report is one of a series of new reports that provides flexible display market statistics, including flexible display industry global market size, regional shares, competitors with a flexible display market share, detailed flexible display market segments, market trends and opportunities, and any further data you may need to thrive in the flexible display industry. This flexible display market research report delivers a complete perspective of everything you need, with an in-depth analysis of the current and future scenario of the industry.

The rising demand for OLED-based devices is expected to propel the growth of the flexible display market going forward.An OLED refers to an organic electroluminescent (organic EL) diode, which is a light-emitting diode, that contains an emissive electroluminescent layer that gives good quality to the picture.

Most flexible displays are made of OLED displays because they give better picture quality even when the screen is bent and twisted. For instance, according to Displaydaily, a US-based technology news publisher, in 2019, there were 3.4 million OLED display TV units sold, and this number is expected to grow by 19% to $6.4 billion units by 2024. Also in 2019, 466 million units of OLED display phones were sold. Therefore, the rising use of OLED displays in devices such as smartphones and TV is driving the growth of the flexible display market.

Technological advancements have emerged as a key trend gaining popularity in the flexible display market.Major companies operating in the flexible display market are focused on technological advancements to strengthen their position in the market.

For instance, in January 2022, Samsung Electronics, a South Korea-based developer of smartphones, laptops, and televisions, launched new displays, namely, MicroLed, Neo QLED, in their new Lifestyle Television models.The Neo Quantum Processor allows the TV to control its lighting and enhance the brightness and accuracy of all shapes on the screen.

The countries covered in the flexible display market report are Australia, Brazil, China, France, Germany, India, Indonesia, Japan, Russia, South Korea, UK, USA.

For decades, rectangular pieces of glass or plastic have been the norm in most consumer electronics. But that’s changing as foldable, bendable, and curved display technology is poised to make breakthroughs in durability, design, and performance.

Over the past ten years, flexible display technology has gotten more advanced in applications across industries. Azumo’slight guide film, for example, can be as thin as a piece of paper at 30 microns, which means you can wrap it around any curved surface and still get the same quality.

Flexible display technology isn’t new to smartphones. The iPhone X has a bendable display to bend around the edges, and theSamsung Galaxy Roundpioneered a curved smartphone design back in 2013 for improved ergonomic use.

The design makes displays much larger than the standard fixed display size and more portable. For convenience, some consumers want the form factor to be as small as possible and the display to be as large as possible for an optimal viewing experience, which is possible with a rollable phone.

Another key benefit of a flexible display in smartphones is that it makes the device more durable. Phones with this type of surface illumination technology can flex under impact, as opposed to the easily shatterable glass displays we’re used to.

Advances in display technology have made the first two possible thanks tofrontlit reflective LCDand longer battery life. But some wearables, especially those intended for medical and not purely aesthetic or practical reasons, are not always comfortable on a body in motion if they rely on a flat screen.

With flexible displays, we may start to see body-conforming designs incorporated into watches and other devices that curve around the body, instead of just a flat display attached to a wristband or wrap. This can make people who stand to benefit from wearable devices more inclined to use them.

Theautomotive industryis ripe for display technology innovation. Flexible displays in particular can transform one of the most important curved surfaces in every car: the steering wheel.

There have been several developments in steering wheel displays over the past decade. Back in 2012, BMW released a sports steering wheel with anOLED, while more recently, Teslafiled a patentfor a steering wheel with several touch-sensitive panels.

A full touch screen steering wheel may be further off, but steering wheels with surface illumination are now within reach with ultra-thin, flexible light guide films. A wheel with a light display can provide car and environment information to the driver in real time, no need to take their eyes off the road.

Beyond consumer electronics, wearables, and cars, flexible display technology has the potential to disrupt decades-old design norms in all kinds of devices, frommedicaltomanufacturing.

After years of speculation and anticipation, foldable smartphones are finally commercial products, starting with the Huawei Mate X and the Samsung Galaxy Fold. Do they mean large-format flexible displays are just around the corner?

“The ability of the 55EF5E model to be reshaped has made it easier to install, as it can be shaped in convex and concave formations onsite. The OLED Falls showcased at ISE was a great example of what can be achieved with large format flexible displays and seeing it in action has already led to some ambitious projects in the pipeline, which will take creativity with displays to a new level.”

Flexible displays have been in several vendors’ R&D labs for a very long time. The two biggest challenges are figuring out how to manufacture them in volume and designing them so they’re durable enough to hold up in everyday use.

“It’s only relatively recently that they’ve started to overcome some of those issues,” says Paul Gagnon, IHS Markit executive director and technology fellow. “The manufacturing scale is still a big problem. That’s part of the reason why these displays are so extraordinarily expensive: The manufacturing yields on them are very poor.”

Premium smartphones have used flexible displays for years because they’re less likely to crack, but their flexibility is limited: nothing like the projector screen contortions that most people think of when they hear “flexible display”.

“While [flexible displays] can be made out of both LCD and OLED, they really don’t work well on LCD,” Gagnon says. “You really need to use OLED processes.”

OLED is thin as a display structure. As an emissive display, there’s no need for a backlight, colour filter and other things that make a display thicker and thus less able to bend. Corning can make glass that’s really thin to the point of being flexible, but the challenge is also making it durable enough to be flexed and unflexed repeatedly.

To be really flexible, TV-size OLED displays would need to use a plastic substrate, which is difficult to manufacture with. “So all of the OLEDs used in large-format displays are made out of glass,” Gagnon says.

At CES 2019, LG announced that it will start offering arollable OLED TV by the end of this year. It didn’t specify how tightly it will roll up, but Gagnon thinks the radius will be somewhere between 8 and 12 inches. A foldable smartphone costs about €2,000 to €2,299, depending on the model, which suggests that the rollable TV will carry an equally hefty premium.

“I’m not sure there are too many companies willing to invest what’s probably a 10X cost difference against a normal display just for the wow factor,” Gagnon says.

But suppose all of these hardware and cost challenges were solved. What could you do with a large-format flexible display that you can’t do with their rigid counterparts or with alternatives such as projectors?

“These formats will add interest and standout in a crowded outdoor advertising space,” says Ric Albert, creative director at Grand Visual, a creative services company focused on the digital-out-of-home (DOOH) market. “It’s easy to see how flexible displays will become the landmark DOOH sites of the future.

“By expanding the potential to place screens in areas otherwise unattainable, we are maximising the opportunity for DOOH to reach new audiences and break the mould of our current inventory. Imagine turning some of the 360-degree vinyl wraps on London Underground into screens rather than printed material for a truly immersive visual experience.”

“I think we’re getting closer to the cliché of being able to change the colour and décor of a room to suit one’s mood. I’m quite sure we will see the technique heavily utilised in commercial settings, especially retail. I think there is a massive benefit in considering the impact of using flexible displays solely as a light source.”

“Flexible displays will be most useful for architectural applications where the display is factored into the interior design of a space and the application is immersive and a big statement for the space,” says Paul Childerhouse, group director at Pioneer Group. “The vertical applications would be varied, but customers with a high level of vision from a creative standpoint. Hotels, malls and atriums particularly would be great places to begin to see curved and architecturally driven display design.”

“If there was even more flexibility within these products, we’d start to work more organically with the environments they are being integrated into, formulating the shape of the architecture,” Childerhouse says. “Working with architectural and interior design teams from an earlier stage would enable us to integrate the technology with the curvatures of the building, resulting in the display becoming immersed into the design concept as opposed to current applications, which tend to be experiential or retrofitted to current buildings.”

“The use of projection and projection mapping is widespread within visitor attractions, but often certain factors such as brightness, cost of ownership and scale can make this impractical. As the cost of flexible display technology comes down, we’re very likely to see this technology replace certain applications previously reserved only for projection mapping, particularly once the transparent and flexible OLED technology is combined.”

“Having screens on actuators so they flex in real time with the content—that would be amazing,” Ross says. “Additionally, they can be used in more hard-to-reach places where one wants to display content: those small (or large) corners, areas with lots of columns making complex projection difficult.

“Having done a project on a large old ship, finding the right place to put projectors inside the ship to tell stories proved limiting. Being able to place these flexible screens in some of these unique and challenging spaces opens up a whole new realm of possibilities.”

“What’s exciting about the flexible screens now in the making is that these screens are malleable and will open up the potential locations and uses for screens in the public space,” Albert says. “On a basic level, convex screens can extend the viewing arc up to 360-degrees, whilst concave screens can wrap around the audience providing a more immersive viewing experience.”

“I’ve not used too many of them to date, but I did work on a project in retail, and people were blown away by the non-traditional screens that curved above their heads as they walked through the shops,” Ross says. “That’s something they’ll always have going for them: a sense of wonder as it’s not something your everyday person would just have in their house.”

“Flexible displays allow media owners the opportunity to place screens on curved structures, maximising the size and shape potential of each location,” Albert says. “Where screens can blend in with the environment and it feels natural, organic and makes sense. Where flexibility is not a gimmick, but simply, the best shape and viewing experience for the location.”

“Content on huge scale installations and being able to effectively drive hundreds of HD or UHD displays has been one of the elements which has held back projects in order to take flexible displays to the next level,” says LG’s Malik. “However, we are seeing that slowly change as content, digital infrastructure and marketing join forces to create visionary creative installations.”

The Royole Flexipai is one of the world’s first foldable phones. It’s made possible by technology pioneered at Universal Display Corporation in Ewing.

But Universal Display Corporation, the Ewing-based company that developed the phosphorescent organic LED technology that is used in high-end cell phone screens, is paving the way to what some believe will be a new era in wild electronics screen designs: foldable, rollable and flexible models that will soon hit the market. Designers can now realistically dream of creating a tablet computer that rolls up to the size of a pen.

Among those who have dreamed of having a single device that combined the portability and pocketability of a phone with the large screen of a tablet is Michael Hack, vice president and general manager of OLED lighting and custom displays at UDC.

Hack, who has worked with the company for 20 years, is a scientist who earned his doctorate at Cambridge University in England and has helped UDC create the tiny, extremely bright and extremely efficient PHOLED components that help make science fictional devices like rollable screens possible.

Already, companies have built prototype devices that hint of a rollable future. At an industry convention last year, electronics maker LG showed off a prototype TV that rolled up into a box, similar to a projector screen but with no projector, which it plans to launch as a consumer product.

Samsung’s Infinity Flex display announced in November is the first of these commercial foldable devices. The display allows the tablet to fold into the shape of the smart phone with no crease in the screen. Huawei and Lenovo are also planning foldable phones.

It’s a revolution long dreamed of by Hack and others at UDC. Hack grew up in England, where his father was an engineer. He graduated from Cambridge with a doctorate and later worked for Xerox, where he worked on flat panel display technology. Rollable screens is a longtime goal of the company.

Universal Display contributes to the foldable screen market in two ways: First, it owns patents on technologies related to phosphorescent organic LED displays and secondly, it manufactures the materials used in this type of display and sells them to companies that make screens. (Most of the world’s screen manufacturers use UDC technology, mostly in smartphones.)

Currently, PHOLED displays are made with red, blue and green diodes: UDC makes phosphorescent red and green diodes, but they don’t yet manufacture blue ones, so these are made with traditional OLED materials using technology developed by Kodak.

PHOLED screens can be much thinner and brighter than conventional displays. Darice Liu, director of investor relations and corporate communications for UDC, says that in 2013 Samsung, which was just using PHOLED red diodes, switched over to green ones, their devices saw a 25 percent increase in battery life.

UDC is currently developing blue diodes, and Liu says that when they come out, manufacturers who adopt them can expect a further 25 percent gain in battery life. PHOLEDs are part of a suite of technologies that have made foldable screens possible. Making an entire rollable phone will require every single component of the phone to be flexible: from screens, to the battery, to the circuitry.

Take, for instance, the surface of the phone itself. Until now, screens have been covered by high strength glass because it is highly transparent and does not scratch when abused by the user. They also used glass as a backing material.

A phone surface that gets scratched and cloudy would be worse than the downside of glass, which is its vulnerability to being shattered. Hack says that recent advances in plastic technology and scratchproof coatings have allowed plastic screens to perform well enough to be used in commercial products. Another major hurdle to flexible plastic is preventing it from creasing.

Other companies are experimenting with extremely thin flexible glass, which potentially could be used instead. It’s not just smartphones that could be revolutionized by rollable technology. Tablets, traditional computers and as-yet unimagined categories of device could be completely re-imagined or invented.

All of this could be leading up to a device that UDC has long held up as a kind of holy grail of communications technology: a “universal communication device” that would look like a pen but have a full-color display that rolls out for use.

UDC is not all about screens however. The company is also developing PHOLED lighting which can be created in strips and applied to any surface. So far, this technology has caught on the quickest in the automotive world, with luxury automakers BMW,

This would drive down the cost of PHOLED screens, making OLED TV screens cheaper and more practical. “By some estimates there will be 10 million OLED TV sets by 20201. We believe the market will have grown to 200 million plus units by then,” Liu says.

The Route 1 corridor has a tradition of pioneering television technology. Color television was invented at Sarnoff Labs, which also created the world’s first liquid crystal flat screen displays.

Liu says people in the industry are a bit sick of hearing references to “Minority Report,” the 2002 sci-fi movie that showed a near future world with advanced computer technology everywhere. But nevertheless, she says we may soon see screens on transparent surfaces, as in “Minority Report,” as well as screens built into mirrors, or in heads-up displays for cars.

Imagine a device about the size of a pen that can replace your smartphone, tablet, and even your wearable devices. Hidden inside this slender canister is a large, rollable touch screen with unparalleled resolution and contrast that will let you Skype, watch movies, or map out directions, and it’s all powered by a battery that lasts for days, not hours. That might seem far-fetched, but this isn’t some futuristic prop from the set of the next Star Trek film. It’s called the Universal Communications Device, and it’s coming to a store near you in as little as five years.

The device described above is the unofficial mascot of one of today’s top companies that’s hard at work to transform our future with the displays of tomorrow, Universal Display Corporation. Known affectionately (and confusingly) as the UCD from UDC, it’s one of a plethora of new devices that will employ advanced applications of OLED display technology to, quite literally, change how we see the world.

Short for Organic Light Emitting Diode, OLED screens are often touted for their incredible picture quality, which is considered by videophiles to be superior to traditional Liquid Crystal Displays (LCDs). But it’s the malleability of OLED screens that has captured the public’s attention, and will create a paradigm shift in how we use displays in the near future. That’s because OLED displays can be created not only from glass substrates (as is common right now) but also on bendable plastic materials that allow for a host of other applications.

To find out more about how and why OLED will become the dominant display technology in the coming decade, we recently spoke to Janice Mahon, who serves as VP of Technology Commercialization for Universal Display Corp.

“One of the things that sets OLED technology apart from LCD and other technologies is its intrinsic ability to be flattened and rolled,” Mahon tells us. “We’ve been focused on rollable OLEDs for over 15 years.”

If you’ve shopped for a TV or even a new Android smartphone recently, you may have seen OLED displays at work. Samsung has been using the tech to do some cool things in its smartphones lately, including the new Galaxy S6 Edge, which bends the screen around both edges. LG has taken the lead on the tech in larger displays, creating beautifully thin TVs that are in the marketplace now, as well as pulling out ultra-thin and rollable concept displays that foreshadow what’s to come.

“This technology, I believe, is really going to change how we use displays dramatically,” Mahon tells us. “We’ll see foldable displays, we’ll see smartphones that go back to clamshells opening up to a full sized screen … wearables like wrist based displays, and devices integrated into clothing, shirt cuffs, (and) backpacks. It has the potential to cross a variety of applications.”

The increasing miniaturization of technology helps to decrease the size and weight of the electronics involved in making display screens, allowing them to be placed virtually anywhere, but it also helps to create ultra-thin screens that can roll out to monster sizes — so we can have our cake and watch it too. As Mahon says, while all electronics are perpetually getting smaller, the one place we don’t want to go small is screen size.

“Companies like LG are talking about … the concept of very large area flexible based wallpaper or rollable screens,” Mahon says. Indeed, not long ago LG showed off a 55-inch OLED display that is so thin it can stick to a wall using nothing more than a magnet, as well as an 18-inch screen that can be rolled, just like the one inside the pen. And that’s just a taste of what’s around the bend.

The massive screens UDC has planned could potentially be spread throughout the home of the future, covering the walls in brilliant displays for a whole new take on the phrase “big screen.” In addition, full sized screens could potentially be rolled into a thin tube and be taken along with us, allowing for a high resolution display that we can bring anywhere, be it the office or the family cabin. And, as Mahon says, this isn’t just a pipe dream. When companies like LG and even Philips continue to talk about this kind of technological evolution, “it means that it’s going to come.”

Of course, there are challenges to be met before everyone’s toting around high-resolution screens everywhere they go: Further miniaturization of everything from electronic processing circuitry to batteries, and simple cost reduction in OLED screen production, for instance.

“One of the challenges is simply improving manufacturing techniques to reduce defects,” Mahon tells us. That’s because of the way OLEDs are commonly made right now, which involves a massive swath of substrate from which multiple displays are cut. The process makes it easy to overlook a defect or two, such as a single “point defect,” when it comes to smaller screens for mobile devices, but harder when you’re talking about a larger surface area like a big screen TV.

“Envision a large glass substrate,” Mahon says. “If you are building cellphone displays on that substrate, if you have 100 or 200 that it gets cut into, if there’s one point defect you can recover 199 cellphone displays, and only throw away one. If, on that same piece of glass, you build two TVs and you have one point defect, you may be in the position of having to throw one of your two TVs away.”

That’s part of the reason OLED displays haven’t taken over the marketplace as quickly as some would like, and it’s part of why OLED TVs are so pricey right now. LG’s flagship 4K UHD OLED, for instance, runs around $7,000 — a good deal more than what its LCD counterparts cost. However, while companies like Sony, Panasonic, and Samsung have seemingly put OLED TVs “on the backburner” as Mahon describes it, she believes Samsung’s success in creating gorgeous (and popular) OLED smartphones like the S6 Edge is a precursor of things to come.

Companies like Universal Display are working hard on reducing OLED defects, allowing production to move from small screens like smartphone displays to medium sized screens, up to massive display sizes. “We’re seeing that learning curve happen today in the glass world,” Mahon says. “I believe on flexibles, we’ll see that same learning curve happen with time.”

Another big challenge in creating the malleable displays of the future is durability. After all, it’s not exactly easy on a display to roll it into a tight spiral over and over again. However, UDC and other companies are making real progress on that front, too. Which brings us back to the magic pen, aka the Universal Communications Device.

“I kind of think about learning to crawl, then to walk, then to run that marathon,” Mahon says. “We had a shareholder meeting last week and we had a flexible display on a flexor, so it was rolling in, rolling out, etc., and it sat there for hours, but I don’t know that we’ve measured it in terms of how many zeroes of hours. But we look for that defect point, and then focus on that particular weakness.”

Working for a company that focuses primarily on OLED technology Mahon is, by definition, biased in favor of OLED over other display technologies. Still, anyone who’s seen OLEDs and all that they can do can read the writing on the wall when it comes to the fate of other display technologies, such as LED-powered Liquid Crystal Displays. When asked point blank about whether OLED will inevitably replace LCDs, Mahon didn’t hesitate for a second.

“When they finish coming up with the manufacturing development curve, and achieve the yield that LCDs have, (OLED displays) will be significantly less expensive,” Mahon says. “An LCD is a piece of glass, liquid crystals, a color filter, a backlight, and another piece of glass — so much more material intensive … building materials (for OLED) will be much lower than LCD.”

In addition, Universal Display is working on new kinds of OLED displays, such as Phosphorescent OLED technology, or PHOLEDs, that reduce the voracious power requirements of OLED displays by a factor of four. Mahon says the displays UDC is developing right now will eventually need as little as 50 percent of the power current LCD displays require, allowing for better battery optimization that will improve the overall life of our devices. And that’s just in the near term. As technology and production techniques improve, OLED is poised to completely dominate the market.

From entire walls lined with brilliant images, to tiny screens folded into our clothing, OLED is helping to make incredible strides in how we use, design, and even think about display technology in the near future and beyond. So hang on to your seats and get ready for that smartphone in your pocket to turn into a relic of the past — the OLED revolution is on our doorstep.

Oct. 7, 2013 — --For a long, long time rivals LG and Samsung have shown off their respective flexible displays at technology shows and in futuristic marketing videos, but those bendable screens might soon be more than just show things.

And the curvy screen might not just be for smartphones. LG Chief Technology Officer Dr. Sang Deog Yeo said in a statement that the company expects the technology to "grow quickly" and that it is "expected to expand further into diverse applications, including automotive displays, tablets and wearable devices."

But LG hasn"t necessarily won the flexible display race. The company"s announcement comes as Samsung is rumored to announce a phone with a bendable screen soon. According to various sources, Samsung has been gearing up to announce its Galaxy Round in Korea, the first smartphone with a flexible display.

Samsung did not respond to ABC News" request for comment on the Galaxy Round rumors. However, the device isn"t supposed to be fully flexible. Samsung told Reuters in September that the display will be "curved" with some rigidity to the shell of the phone. There were also rumors that Samsung"s Galaxy Gear smartwatch would ship with a bendable screen. However, the watch has a normal, rigid LCD display. Apple has been rumored to be working on a curved-glass smartwatch, called the iWatch.

Both LG"s announcement and the rumors of Samsung"s phone set up an interesting future for our big- and small-screened gadgets. Curved displays will enable more comfortable wearable devices and compact tablets and computers.