flexible lcd module free sample

Established in 2010, Topfoison has devoted itself to the manufacturing and development of high-quality products for the Wearable device, Smart Watch, VR, Medical device, Industrial LCD display including Color LCD modules/OLED/LCD display/Round lcd screen/Round AMOLED/ Square transflective lcd screen/ IPS full wide display/ 1080p fhd AMOLED and 2K 1440p lcd. Topfoison focus on1.22-7.0 inch small size displays, all the products produced in our company enjoys the most advanced production craft and technology as well as the strictly ISO quality management system.

A flexible display is made from flexible materials, which allows them to display different products and occasions at a same time. For example, flexible display options are flexible to which used to display products in a convenient way. For terms of display, different dimensions, and sizes allow customers to display different products at a later time.

Some flexible display come in different colors, shapes, and sizes. flexible display options include various colors, shapes, sizes, and features. As a result, the user can choose from a range of flexible display modules, such as LED flexible display modules, or LED flexible display options in various colors, shapes and sizes. flexible programmable flexible display modules can be customized and changes the screen accordingly.

flexible display modules are designed to fit different environments and needs. There are also flexible display modules that can be used to display different products, for example use in indoor, outdoor, and home use.

Find flexible display modules on Alibaba.com. These flexible display modules range in color, size, and color options can be customizedizable to suit the user"s needs. There are other flexible display modules that are flexible for all of your customers" needs.

Free sample for Flexible Display Programmable Transparent Led Curtain Wall. #transparentledcurtaindisplay #transparentledpanel #transparentledposter #transparentledvideoscreen #leddisplaytransparent #glasswindowleddisplay #transparentleddisplayglass #transparentledfilmdisplay #transparentledtv, www.szradiant.com , email:info@szradiant.com skype:radiant-led , wechat:+86-13902918225

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.

OLCD can be conformed and wrapped around surfaces and cut into non-rectangular shapes during the production process. Holes can be also added to fit around the functional design of the system – for example around knobs and switches.

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.

OLCD brings the benefits of being thin, light, shatterproof and conformable, while offering the same quality and performance as traditional glass LCDs. The mechanical advantages of plastic OLCD over glass LCD are further enhanced by the technology’s excellent optical performance, much of which originates from the extreme thinness of plastic TAC substrates compared to glass.

New York, United States, July 19, 2022 (GLOBE NEWSWIRE) -- The global flexible display market had a market share of USD 13.34 billion in 2019, according to the new report of Straits Research. It is predicted to grow at a CAGR of 34.83% from 2022 to 2030. The global flexible display market is expected to grow owing to the rising innovations in consumer electronics and increased demand for a high-quality picture. Integrating smart sensors into residential devices has lengthened the replacement cycle for new consumer electronics. Displays are increasingly being used to control and communicate with devices.

The growing trend of smart homes and buildings and the increasing demand for connected technologies are some of the major factors driving the adoption of connected and innovative solutions across the consumer electronics sector. Effective data storage is becoming critical, with so many viewers consuming media from OTT platforms such as Netflix, Amazon, and others. Thus, the demand for TVs is expected to boost the flexible displays market.

Further, the growing demand for greater picture quality bolsters the demand for flexible displays. The number of 4K televisions sold has increased exponentially in recent years. According to JEITA, the number of 4K TVs shipped in Japan in 2020 will be 3.05 million, up from 2.58 million the previous year. The increase in demand is expected to be driven by the change in resolution and quality of the contents.

Lastly, more exciting and demanding technology, such as virtual reality and 4K displays, is now available. As a result, PC gamers are expected to upgrade their equipment, which is one of the factors driving sales of gaming-specific PCs and their accessories, such as gaming screens. As a result, increased need for picture quality has increased the demand for flexible displays. Report MetricDetails

Due to the global shutdown, production of flexible displays fell precipitously in 2020 due to the global supply chain disruption. COVID-19 had an impact on the operations of not only flexible display manufacturers but also their suppliers and distributors.

In the short term, the failure of export shipments and poor domestic semiconductor demand compared to pre-COVID-19 levels are expected to impact negatively and slightly stagnant demand for semiconductor devices, affecting the flexible display market.

As a result of the ongoing COVID-19 outbreak, several major economies have been placed on lockdown. Sales of electronic products have been hampered, and supply networks have been disrupted. Furthermore, many economies are losing a significant amount of revenue due to manufacturing plant closures. As a result, the general scenario has hampered the demand for flexible displays in 2020.

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.

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.

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.

Gomes, A., Nesbitt, A., and Vertegaal, R. (2013) MorePhone: A Study Of Actuated Shape Deformations for Flexible Thin-Film Smartphone Notifications. In Proceedings of ACM CHI’13 Conference on Human Factors in Computing. ACM Press, 2013, pp. 583–592.

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.

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.

The North America region is expected to reach USD 46.03 billion by 2030 with a CAGR of 33.5% in North America flexible display market. The term "flexible display" refers to any visual output surface that is constructed to be able to withstand being folded, bent, or twisted in any direction. OLED displays are commonly used in screens that use flexible displays. Flexible displays are becoming more common in foldable technology, such as smartphones that can be folded or closed like a book.

Flexible displays are helpful because they permit the device to be stored in a smaller space, like a pocket, while also providing a screen size that is more enjoyable for the display of media. This is a useful combination. Flexible displays in mobile devices can improve multitasking. Foldable displays on smartphones may one day make it unnecessary for some people to carry around a tablet in addition to their primary device. The cache of something new and futuristic is the main draw of a folding display.

It is anticipated that the primary manufacturers in the market would have prospects for expansion as a result of the growing demand for flexible displays in a variety of industries, including healthcare and automotive, amongst others. The incorporation of flexible screens into the interiors of vehicles is a primary goal for car manufacturers.

In recent years, improvements in manufacturing techniques for flexible organic light emitting diodes (OLED) have led to growth in the flexible display business. It is anticipated that the market penetration of flexible glass in a variety of consumer electronics goods would increase over the course of the projection period. These desirable characteristics include mobility, low weight, lack of brittleness, and flexibility.

The technology that is utilised in the production of these displays is considered to be one of the primary benefits of flexible organic LEDs. The OLED displays have a competitive advantage thanks to the use of organic components such as phosphorescent dye and conductive polymer. They emit more light, weigh less, and offer a greater degree of flexibility in terms of how they can be integrated with other electrical devices. In addition to this, they are quite resourceful and have a low impact on the environment in terms of energy consumption.

The customer can experience a higher resolution, greater sense of immersion, and a larger field of view thanks to the use of flexible OLED displays, which are also a component in curved TVs.

The manufacturing process for FOLEDs is extremely demanding and necessitates the introduction of stress via heat. The production of flexible plastics and the bending process necessitate very precise and intense heat, which can result in thermal and residual stress. This can reduce the device"s quality and longevity, making it less durable in the long run.

The market for flexible displays in the North America region may be broken down into three distinct categories: the component utilised, the technology & the application.

Display technology and display manufacturing technology are the two subcategories that are included in the technology segment"s further subdivisions. OLED, E-paper, LCD, and LCOS are some of the technologies that are used in display technology. The technologies used in display manufacturing include plasma display technology as well as flat panel display technology.

Apple utilised flexible displays in order to achieve a distinct effect in their products. The iPhone X, which kicked off the trend of screens with curved corners, actually used a flexible display to accomplish this without giving up any of the screen real estate that was previously occupied by the bezels.

HP and the Flexible Display Center (FDC) at Arizona State University (ASU) today announced the first prototype of affordable, flexible electronic displays.

Flexible displays are paper-like computer displays made almost entirely of plastic. This technology enables displays to become easily portable and consumes less power than today’s computer displays. Popular applications for the technology could include electronic paper and signage.

The production feat is a milestone in the industry’s efforts to create a mass market for high-resolution flexible displays. Plus, from an environmental standpoint, the displays leapfrog conventional display processes by using up to 90 percent less materials by volume.

SAIL technology enables the fabrication of thin film transistor arrays on a flexible plastic material in a low-cost, roll-to-roll manufacturing process. This allows for more cost-effective continuous production, rather than batch sheet-to-sheet production.

The first practical demonstration of the flexible displays was achieved through collaborative efforts between the FDC and HP as well as other FDC partners including DuPont Teijin Films and E Ink. To create this display, the FDC produces stacks of semiconductor materials and metals on flexible Teonex� Polyethylene Naphthalate (PEN) substrates from DuPont Teijin Films.

HP then patterns the substrates using the SAIL process and subsequently integrates E Ink’s Vizplex™ imaging film to produce an actively addressed flexible display on plastic. E Ink’s Vizplex bi-stable electrophoretic imaging film enables images to persist without applied voltage, thereby greatly reducing power consumption for viewing text.

“Producing a photolithography-free, flexible active-matrix display is an excellent example of the Flexible Display Center’s world-class development and manufacturing infrastructure,” said Shawn O’Rourke, director, Engineering, Flexible Display Center at Arizona State University. “It demonstrates how multiple industry partners can collaborate on innovative solutions, including roll-to-roll compatible technology that addresses the rapidly growing market for flexible electronics.”

“Flexible electronic displays are playing an increasingly important role in the global high-tech industry, serving as the crucial enabling technology for a new generation of portable devices, including e-readers and similar products designed to combine mobility with compelling user interfaces,” said Vinita Jakhanwal, principal analyst, Small and Medium Displays, iSuppli. “We expect the flexible display market to grow from $80 million in 2007 to $2.8 billion by 2013. The Flexible Display Center at Arizona State University is a key participant in helping to develop the technology and manufacturing ecosystem to support this market.”

The FDC is a government–industry–academia partnership that’s advancing full-color flexible display technology and fostering development of a manufacturing ecosystem to support the rapidly growing market for flexible electronic displays. FDC partners include many of the world’s leading providers of advanced display technology, materials and process equipment. The FDC is unique among the U.S. Army’s University centers, having been formed through a 10-year cooperative agreement with Arizona State University in 2004. This adaptable agreement has enabled the FDC to create and implement a proven collaborative partnership model with more than 20 engaged industry members, and to successfully deploy world-class wafer-scale R&D and GEN-II display-scale pilot production lines for rapid flexible display technology development and manufacturing supply chain commercialization. More information about FDC is available at

Flexible Display Market size was valued at US$ 14.70 Bn. in 2021 and the total revenue is expected to grow at a CAGR of 28.4% through 2022 to 2029, reaching nearly US$ 108.61 Bn.

In comparison to the usual flat screen displays found in most electronic devices, a flexible display or rollable display is an electronic visual display that is flexible in nature. Because the screens are printed on a flexible plastic membrane, they are incredibly thin and may easily be twisted. Instead of employing tempered glass, most devices have used a plastic-based material to cover the screen, retaining the foldable nature of the device.

The COVID-19 pandemic is having a negative influence on the flexible display market. Many organizations have had to suspend operations as a result of the pandemic in order to reduce the impact of virus infection. This interruption in company activities had a direct impact on consumer electronics device sales, as well as customer demand and supply chain availability. COVID-19 is also having a negative influence on the automotive industry. As a result, demand for flexible displays is expected to decline to some extent in the event of a pandemic.

The global flexible display market is growing due to factors like the increasing usage of display-based consumer electronic devices and the rising need for lightweight, flexible, and energy-efficient devices. Furthermore, technological advancements have resulted in the launch of cutting-edge flexible displays, which are expected to provide new commercial growth potential for market players.

Flexible displays are commonly used by consumer electronics manufacturers due to various advantages such as lightweight, non-fragility, and durability.

Furthermore, due to its sophisticated characteristics, demand for Organic Light Emitting Diode (OLED)-based flexible displays is expected to increase at an exponential rate. Furthermore, during the forecast period, the increased usage of smart wearable devices is expected to drive market growth. As a result, manufacturers are working to boost their production facilities in order to satisfy the rising demand. In addition, the growing popularity of OLED-based devices such as virtual reality headsets, mobile phones, digital cameras, tablets, laptops, and televisions is predicted to boost market growth. However, for new entrants, the difficult manufacturing process and expensive investment required for OLED-based flexible displays can be a barrier.

Flexible displays" increasing popularity in the automotive, healthcare, and other industries is likely to open up new market opportunities. Automobile manufacturers are also focusing on integrating this display into vehicle interiors. These are the major key factors that are expected to drives the growth of the global market during the forecast period 2022-2029.

Based on the Technology, the market is segmented into LCD, OLED, EPD, E-Paper, and Quantum Dots. OLED segment is expected to hold the largest market shares of xx% by 2029. Due to their high flexibility and energy efficiency, OLED-based displays are widely utilised in smart phones. In comparison to LCD flexible screens, they are also lightweight and have a clean appearance. These are the major factors that drive the growth of this segment in the Global market during the forecast period 2022-2029.

Automotive segment is expected to grow rapidly at a CAGR of xx% during the forecast period 2022-2029. This is due to the growing demand for navigation and infotainment systems to improve user experience; the flexible display market is expected to gain pace in the transportation and automotive sectors.

Asia Pacific dominates the Flexible Display market during the forecast period 2022-2029. Asia Pacific is expected to hold the largest market share of xx% by 2029. This is due to the key display manufacturers such as Samsung, LG, Sony, AUO, and E Ink Holdings are present in the region, the Asia-Pacific flexible display market is expected to grow rapidly in the forecast period.

The increasing number of smart phone users, together with the implementation of advanced technologies like augmented reality and 3D display, is expected to boost market growth in this region. Flexible display manufacturing is dominated by countries such as India, Japan, China, and South Korea. Each year, the Chengdu facility in China produces approximately 70 million flexible sheets for phone screens. These are the major factors that drive the growth of this region in the Global market during the forecast period 2022-2029.

The objective of the report is to present a comprehensive analysis of the Flexible Display Market to the stakeholders in the industry. The past and current status of the industry with the forecasted market size and trends are presented in the report with the analysis of complicated data in simple language. The report covers all the aspects of the industry with a dedicated study of key players that include market leaders, followers, and new entrants.

The reports also help in understanding the Flexible Display Market dynamic, structure by analyzing the market segments and project the Flexible Display Market size. Clear representation of competitive analysis of key players by product, price, financial position, product portfolio, growth strategies, and regional presence in the Flexible Display Relay Market make the report investor’s guide.

Ans. Panasonic Corporation, Samsung Electronics Co. Ltd, Japan Display Inc., Osram Licht AG, and Pioneer Corporation are the top key players in the Global Flexible Display Market.

Growing use of flexible displays in the consumer electronics industry for smartphones, wearable devices, laptops, and its peripherals is expected to boost the category.

Due to their expanding use in flexible displays, wearable electronics, smart cards, and various other applications, flexible batteries are growing in popularity. A flexible display is also a rapidly growing technology, with applications of flexible display in areas such as media, aircraft, and transportation. Research on flexible display predicts increasing usage of this display technology in medical display systems.

The surge in demand for flexible display technology for a variety of applications such as digital signage, smartphones and tablets, and smart wearable devices is likely to drive the global flexible display market. The growing prominence of quantum dot (QD) display technology presents manufacturers with new revenue prospects and is likely to emerge as one of the important types of display technology.

Key Findings of Market ReportOver the next few years, the market is expected to be driven by the increasing use of flexible displays in different industries such as consumer electronics, automotive and transportation, media and entertainment, and aviation and military. The future of phone design with flexible display holds promise in the development of mobile devices and smart displays is also expected to propel the flexible display market during the forecast timeline. In addition to that, the global market has been propelled by increasing expenditures on the development of sophisticated displays.

Due to the surge in usage for curved displays from the consumer electronics sector for the manufacturing of TVs and smartphones, the curved display category is likely to hold a significant proportion of the market during the forecast timeframe. A flexible display is basically the same as any other display, except that it is built on a flexible substrate.

OLED is a rapidly growing category of the global flexible electronics market in terms of technology. Due to the glass layer utilized in display manufacture, smartphone screens are traditionally inflexible. However, the newest OLED-based technology has eliminated the requirement for it, substituting a thin film of flexible glass with a thin layer of OLED-based technology. The OLED display, which is constructed of organic components that generate light when power is transmitted between them, is now prominent due to its versatility.

Global Flexible Display Market: Growth DriversAutomakers are concentrating on integrating flexible screens into car interiors. Over the next several years, a substantially bigger section of a car"s interior surfaces is likely to become interactive, and the amount of space given to displays in vehicle interiors is already fast expanding.

Based on value, the Asia Pacific region held 34% of the global flexible display market in 2021. The high usage of flexible displays in consumer electronics, which represented a substantial chunk of overall consumption in Asia Pacific, was largely responsible for the considerable share. In Asia Pacific, China accounted for a sizable portion of the flexible display business.

The Global Flexible Displays Market size is expected to reach $31.5 billion by 2025, rising at a market growth of 25.9% CAGR during the forecast period. Flexible displays are mainly OLED and AMOLED displays that are curved, bended, or fully foldable. Consumer electronics manufacturers have offered numerous smartphones, TV sets and other display devices in a rigid curved form factor in the current market scenario. Although these displays are curved in comparison to traditional rigid flat displays, these displays do not give the end-users true versatility.

Growth is driven by increased demand for display-based consumer electronics coupled with consumer inclination towards energy-efficient, flexible gadgets. Technological advances in display technology have resulted in the introduction of advanced flexible displays, creating opportunities for growth for the market"s key players. In terms of portability, non-fragility and weight, the superior features offered by flexible displays make them an attractive option for consumer electronics manufacturers. In addition, the adoption of flexible displays based on Organic Light Emitting Diode (OLED) is experiencing exponential growth in high-definition content and high-performance applications. In addition, market demand is propelled by high growth in the smart wearable market.

Based on Type, the market is segmented into OLED and Others. Based on Application, the market is segmented into Smartphone, Smart Wearbles, TV, E-reader, Automotive & Transportation and Others. The segment of smartphones and tablets was the largest market share in 2018. Smartphones have LED-LCD and OLED-based display panels, tablets are extended shape of smartphone and are mainly equipped with LED-LCD display panels. Due to the high demand on the consumer market, various smartphone and laptop manufacturers and suppliers have reached the tablet market. These are made more durable by using flexible displays in smartphones and tablets, as they provide sleek designs and better ergonomics to operate these devices. Based on Material Type, the market is segmented into Plastic, Glass and Others.

Based on Regions, the market is segmented into North America, Europe, Asia Pacific, and Latin America, Middle East & Africa. The presence of a large number of consumer electronics manufacturers and massive customer base is boosting the regional demand for flexible displays. Countries like Japan, South Korea, China, and India are the leaders in flexible display growth. China is the world"s largest producer of flexible OLED displays.

The major strategies followed by the market participants are Product launches and Partnerships & Collaborations. Based on the Analysis presented in the Cardinal matrix, Samsung Electronics Co., Ltd. (Samsung Group) and LG Corporation are some of the forerunners in the Flexible Display Market. The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include LG Display Co., Ltd. (LG Corporation), Samsung Electronics Co., Ltd. (Samsung Group), AU Optronics Corporation, Corning, Inc., Sharp Corporation, Kateeva, Inc., BOE Technology Group Co., Ltd., Royole Corporation, E Ink Holdings, Inc. and Visionox Technology, Inc.

Nov-2019: Sharp introduced a 30-inch 4K flexible organic LED (OLED) display in cooperation with Japan Broadcasting Corporation (NHK). This display has world’s largest color-filter-less (RGB light emission method), high-definition 4K flexible OLED display, and flexibility of film substrate that allows the display to be stored as a compact roll.

May-2019: BOE Technology announced its collaboration with Himax Technologies in which Himax launched flexible OLED automotive display driver and timing controller for BOE Technology Group. This technology of Himax has been adopted by BOE in its 12.3-inch three-unit curved flexible OLED automotive displays for cockpit areas with only 0.99 mm bezels.

Dec-2018: Royole partnered with Airbus in order to develop aircraft-cabin applications. In this partnership, both the companies will investigate the commercial opportunities and use of sensors and flexible displays on passenger aircraft.

Dec-2018: Visionox Technology and IDEX Biometrics collaborated on exploring the development of next-generation IDEX’s unique off-chip biometric sensors for smart cards that uses Visionox’s flexible LTPS TFT backplane technology. The collaboration is focused towards the development of feature-rich and cost-effective smart card systems supporting both biometric and display technologies.

Feb-2019: Sharp introduced four new models of its 4K Ultra-HD resolution commercial LCD display line. These displays will be ideal for business, retail, and hospitality sectors. This helps the customers to see subtler textures and finer details in photos and videos.

Jan-2019: Samsung Display introduced its first 15.6-inch OLED panel for the notebook market. This panel delivers brighter colors and deeper blacks over 4K LCD-based screens.

Oct-2018: Royole introduced the Royole FlexPai, a commercial foldable smartphone, a combination of tablet and mobile phone with flexible screen. This smartphone is based upon Royole"s Flexible+ platform; this can be easily combined into a number of products and applications across different industries.

Stretchable displays, or free-form displays as LG Display calls them, can be pulled, bent and twisted. They go a step farther than the flexible displays used in Samsung"s Galaxy Fold and other smartphones, which can be folded and bent but not stretched.