Thanks to E Ink, it was an excellent opportunity to present
our flexible plastic displays in different sizes and discuss the existing and future applications with our customers and prospects.
Plastic Logic and SERELC developed together a new low - power outdoor digital signage solution based on Plastic Logic's
flexible plastic displays.
Each ZED (Zero Energy Display) unit consists of two 10.7» monochrome
flexible plastic displays.
The video goes into details about E Ink's new
flexible plastic displays that are designed to be nearly indestructible.
«Plastic Logic's
flexible plastic displays are completely transformational in terms of product interaction.
The company has achieved many technological firsts including the production of high quality colour rugged plastic displays, demonstration of animation on an EPD driven by OTFTs and production yields of
its flexible plastic displays comparable to the LCD industry.
Having recently achieved significant milestones, including being the first in the world to fully industrialize the mass - production of
flexible plastic displays, we are now well positioned to address a broader set of applications and markets throughout the world.»
«Plastic Logic's
flexible plastic displays are completely transformational in terms of product interaction,» says Indro Mukerjee, CEO of plastic logic.
Plastic Logic has developed
a flexible plastic display technology using organic thin film transistors (OTFT).
Not exact matches
This model boasts a 6 - inch screen with a thinner and more
flexible plastic, rather than glass, OLED
display.
These
plastic electronic
displays could also provide smartphones with shatterproof
displays (good news for anyone who's inadvertently tried drop - testing their phone onto the pavement) and lead to the next generation of
flexible wearable technology.
The shiny
plastic surface seen at the top of the image is known as the web; it will be formed into the circuitry that controls the
flexible display.
Because this material will stretch to match any distortions, a
flexible substrate, such as a
plastic, can be used to make the backing material of the
display.
Flexible display — makers Polymer Vision (Eindhoven, Netherlands) and
Plastic Logic (Cambridge) should begin production later this year, he says, as well as PolyIC, a German firm working on printed radio bar codes for product tracking.
A new approach being developed by Hewlett - Packard and Arizona State University would solve both problems by inexpensively «printing»
displays onto a
flexible plastic backing.
So - called
flexible electronics technology is most often associated with slim computer
displays that bend like
plastic.
Since thin films of material can also be patterned onto sheets of
plastic, the same work could point toward thin,
flexible, bright, color
displays.
Speaking exclusively to +
Plastic Electronics, FlexEnable explains how
flexible LCD can be brought to industrial
display production lines in the coming years.
· A state - of - the - art OLED
display that is manufactured on a
flexible plastic substrate.
Plastic Logic developed a new OTFT - based
flexible 42» e-paper (E Ink)
display, made from 16 10.7»
flexible panels tiled together.
The prototype (shown above) is an active - matrix electrophoretic (E Ink)
display fabricated on
flexible plastic.
The plant, which develops, manufactures and sells a range of
flexible electrophoretic
displays (EPDs), is being acquired, along with the
Plastic Logic brand name, by investor Rusnano.
In June 2013
Plastic Logic started researching graphene for
flexible displays in collaboration with Cambridge University's Graphene Centre.
Young says one company,
Plastic Logic Ltd., is making large
flexible displays using E Ink materials: «They can make a 10 - to -12-in.
In June 2013, Cambridge University's Graphene Centre (CGC) and
Plastic Logic started to develop a transparent graphene - based backplane for
flexible displays.
Plastic Logic has long been associated with the development of
flexible displays, but we have yet to see a successful commercial application of the technology so far.
Plastic Logic has described the «fully industrialized plastic, flexible Organic Thin Film Transistor (OTFT) backplane and know - how enabled the world's first fully organic, flexible display.
Plastic Logic has described the «fully industrialized
plastic, flexible Organic Thin Film Transistor (OTFT) backplane and know - how enabled the world's first fully organic, flexible display.
plastic,
flexible Organic Thin Film Transistor (OTFT) backplane and know - how enabled the world's first fully organic,
flexible display.»
Plastic Logic has already established a partner program to work with leading global display makers and consumer electronics companies to enable flexible, plastic AMOLED supply chains through licensing and technology transfer to mass volume producers,» the press release re
Plastic Logic has already established a partner program to work with leading global
display makers and consumer electronics companies to enable
flexible,
plastic AMOLED supply chains through licensing and technology transfer to mass volume producers,» the press release re
plastic AMOLED supply chains through licensing and technology transfer to mass volume producers,» the press release revealed.
Back in February,
Plastic Logic and Novaled (owned by Samsung) announced that throughout 2014 they will demonstrate truly flexible, plastic, full - organic AMOLED di
Plastic Logic and Novaled (owned by Samsung) announced that throughout 2014 they will demonstrate truly
flexible,
plastic, full - organic AMOLED di
plastic, full - organic AMOLED
displays.
The prototype
display uses a new polyamide film at the back instead of the usual
plastic to make it thinner and, in turn, more
flexible.
A «buyer's guide» to
flexible plastic e-paper
displays Display technology is ubiquitous — meaning we all spend a lot of time engaging with «screens» of some kind... most of which are made of glass.
What is especially news worthy and significant is that the performance of the OLED
display on a
flexible plastic substrate for the Galaxy S6 edge + is now essentially the same as on a traditional glass substrate for the Galaxy Note 5, even at 500 + pixels per inch and 2560x1440 resolution.
They are made on a
flexible plastic substrate, so they can be used to make curved
displays.
The Galaxy S6 edge +
display is similar to the Note 5, with the same screen size and resolution, but it has a curved screen OLED
display that is manufactured on a
flexible plastic substrate so that it can bend around the corners on both the sides of the phone to provide two
display areas that can be viewed and controlled from both the front or the sides, which is especially useful for viewing notifications and scrolling news items, and also as a dim night clock on a beside table.
Last month the company unveiled a new
plastic - based
flexible e-paper prototype
display, featuring 4,000 colors at 75 ppi.
The Galaxy S6 edge + is actually a
flexible OLED
display manufactured on a
flexible plastic substrate rather than on a traditional perfectly flat and hard screen like almost all other OLED (and LCD)
displays.
This device is using
plastic flexible display.
E Ink is going to be announcing new
plastic based
flexible e-paper at SID
Display Week.
«Based on our success in mass - producing
plastic EPD, we are excited as we look toward applying concepts from this experience to future developments like
plastic OLED and
flexible displays.»
is similar, but its OLED
display is made using a new
flexible plastic substrate, so that it can bend around on both sides of the phone to provide two new curved
display areas that can be viewed from both the front or the sides, and also when the phone is placed face down.
The Galaxy Note Edge
display is similar, but it has an OLED
display that is manufactured on a
flexible plastic substrate so that it can bend around the side of the phone to provide a second
display area that can be viewed from both the front or the side.
The Galaxy Note Edge is actually a
flexible OLED
display manufactured on a
flexible plastic substrate rather than on a hard glass substrate like almost all other OLED (and LCD)
displays.
The Galaxy S7 Edge
display is similar to the Galaxy S7, but it has a curved screen OLED
display that is manufactured on a
flexible plastic substrate so that it can bend around the corners on both the sides of the phone to provide two
display areas that can be viewed and controlled from both the front or the sides, which is especially useful for viewing notifications and scrolling news items.
What is especially news worthy and significant is that the performance of the OLED
display on a
flexible plastic substrate for the Galaxy S7 Edge is now essentially the same as on a traditional glass substrate for the Galaxy S7, even at 500 + pixels per inch and 2560x1440 resolution.
In the near future some Smartphones will offer bendable screens by switching to a protective
flexible plastic cover over the
flexible OLED
display.
The flex AMOLED
display was made using
Plastic Logic's truly
flexible oTFT backplane technology, combined with Novaled's OLED frontplane materials.
Find out more about
Plastic Logic and its robust,
flexible displays by visiting http://www.plasticlogic.com and http://www.youtube.com/plasticlogic.
Canada's Queen's University, Intel, and
Plastic Logic have created a
flexible paper - like tablet using
Plastic Logic's 10.7»
display and Intel's Core i5 processors.
However, it is fully interactive with a
flexible, high - resolution 10.7»
plastic display developed by Plastic Logic, a flexible touchscreen, and powered by the second generation Intel ® CoreTM i5 Pro
plastic display developed by
Plastic Logic, a flexible touchscreen, and powered by the second generation Intel ® CoreTM i5 Pro
Plastic Logic, a
flexible touchscreen, and powered by the second generation Intel ® CoreTM i5 Processor.
The new CoverReader will use
Plastic Logic's
flexible EPD product; the 4.8»
display will be manufactured in the company's Dresden facility.