Sentences with phrase «flexible backplanes»
The team also envisages the new flexible backplanes may be lightweight and malleable enough to be used as high - density sensors for use in such things as high - resolution medical imaging systems or super-accurate gesture recognition applications.
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Peruvemba says E Ink has helped about a dozen manufacturers of e-readers and other devices create flexible backplanes for use with its flexible display.
The active matrix displays have a glass based backplane whereas the SURF and Ink - In - Motion displays use flexible backplanes.
This means that flexible backplanes can be coupled with a flexible display medium, such as electronic ink or OLEDs, to create a fully flexible display.
A few weeks ago Polyera unveiled their first product, the Wove Band - which is based on the company's OTFT flexible backplane technology.
Pervasive displays provide a host of different display sizes ranging between 1.44» and 10.4», while Plastic Logic Germany provides an e-paper screen based on a plastic and flexible backplane in 10.7» and 15.4» versions, creating screens that are a good alternative for environments that require very robust displays.
Not exact matches
Highly flexible organic light - emitting diode display was demonstrated using MoS2 TFTs as an active - matrix backplane.
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 described the «fully industrialized plastic, flexible Organic Thin Film Transistor (OTFT) backplane and know - how enabled the world's first fully organic, flexible display.»
SmartKem's organic thin film transistor (OTFT) backplanes are designed for both glass and flexible displays.
This full - organic AMOLED panel uses Plastic Logic's flexible OTFT backplane and the whole panel can be bent and rolled and still show the image.
This is a fully - organic AMOLED panel that uses Plastic Logic's flexible OTFT backplane.
A few months ago, FlexEnable and Chunghwa Picture Tube (CPT) demonstrated a full - color flexible AMOLED display that uses FlexEnable's OTFT backplane.
The display consists of a flexible, high resolution, printed active - matrix backplane driving an electronic paper frontplane from US - based E Ink Corporation.
The flex AMOLED display was made using Plastic Logic's truly flexible oTFT backplane technology, combined with Novaled's OLED frontplane materials.
Unfortunately, according to TechOn, the Japanese company has only showcased this thing as some sort of «proof of concept» (in other words, trying to get some time in the media spotlight), because they've refrained from providing any technical details regarding the flexible ePaper module (no resolution or backplane details have been provided).
The facility comprises of a 3800m ² clean room area, for backplane processing and test and assembly processes as well as a pilot production line for large area, smart, flexible electronic applications on plastic substrates,» says the company's CEO Tim Burne.
They are more flexible than many other companies offerings because instead of using traditional silicon transistors, their active - matrix backplane consists of organic thin film transistors (OTFTs) on PET; that's exactly the same plastic used to make cola bottles.
The result, a flexible, transmissive backplane, represents a significant breakthrough in the manufacture of new large area image sensors and demonstrates the potential use of Plastic Logic's unique flexible transistor technology beyond plastic displays.
This paper summarizes work that demonstrates many of these characteristics in a realistic system: organic active matrix backplane circuits (256 transistors) for large (≈ 5 × 5 - inch) mechanically flexible sheets of electronic paper, an emerging type of display.
The collaboration is based on the deposition of organic printed photodetectors (OPD), pioneered by ISORG, onto a plastic organic thin - film transistor (OTFT) backplane, developed by Plastic Logic, to create a flexible sensor array.
OTFT are very promising as flexible OLED backplanes because they are processed at low temperatures (below 100 degrees Celsius) and they are more flexible compared to silicon or oxide - TFT backplanes.
Now, following this collaboration, Plastic Logic demonstrated the world's first flexible display that uses a graphene backplane.
This strategic agreement has several activities and goals, one of them is to develop graphene as a transparent, highly conductive layer for plastic backplanes for unbreakable LCD and flexible OLED displays.
FlexEnable is collaborating with CPT to develop flexible OLED dispalys based on OTFT backplanes.
In 2014 Plastic Logic demonstrated flexible AMOLED prototypes built on their OTFT backplanes.
However, «the display may use a flexible display in the future if there is significant interest in large, rugged (plastic backplane - based) ePaper displays,» said a representative.
Plastic Logic and Cambridge University recently demonstrated the world's first flexible display with a graphene backplane.
In August 2015 Polyera, a US - based OTFT backplane developer, announced their first product, the Wove Band flexible E Ink smart band, to be released in the second half of 2016.
Flexible electronic paper uses plastic substrates and plastic electronics for the display backplane.