Sentences with phrase «flexible transistor»
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.
http://www.flexenable.com/
Indro Mukerjee Chairman of Plastic Logic said «I believe that the full potential of plastic electronics is now emerging as transformational developments in flexible transistor performance and bold, new concepts drive more and more applications.
«A flexible transistor that conforms to skin.»
A researcher demonstrates the efficacy of a flexible transistor, as it is stretched, twisted and poked.
Researchers are now reporting in the journal ACS Nano a new, inexpensive and simple way to make transparent, flexible transistors — the building blocks of electronics — that could help bring roll - up smartphones with see - through displays and other bendable gadgets to consumers in just a few years.
New types of solar cells and flexible transistors are also in the works, as well as pressure and temperature sensors that could be built into electronic skin for robotic or bionic applications.
Not exact matches
The plasma etches the films and will form the transistors and circuits in the flexible display.
This transparent transistor, which functions even when wrapped around a thin pen, could help make flexible electronics widely accessible.
Based on graphene field - effect transistors, the flexible devices open up new possibilities for the development of functional implants and interfaces.
Graphene transistors integrated in a flexible neural probe enables electrical signals from neurons to be measured with high accuracy and density.
These ultra-thin carbon filaments have high mobility, high transparency and electric conductivity, making them ideal for performing electronic tasks and making flexible electronic devices like thin film transistors, the on - off switches at the heart of digital electronic systems.
The array of possible applications ranges from transistors and sensors to mechanically flexible semiconductor devices.
On page 314 of this issue, Tee et al. (3) report a Digital Tactile System («DiTact») based on a low - power flexible organic transistor circuit that transduces pressure stimuli into oscillating signals like those generated by skin mechanoreceptors.
A team led by Zhenan Bao at Stanford University made the stretchy transistors by confining conductors inside an incredibly thin, flexible polymer material.
To address this, Akinwande wanted to make a key component for flexible electronics — radiofrequency transistors needed for telecommunications — on paper.
The CMOT project aims to tailor and develop solution based metal oxide thin - film transistors (MOTFTs) with graphene electrodes for the field of flexible, low - cost electronics.
Some potential advancements already being researched include flexible electronics, anti bacterial paper, actuators, electrochoromic devices and transistors.
Plastic Logic says that this is the first time graphene has been used in a transistor - based flexible device.
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.
Researchers from Yonsei University managed to use a graphene - like 2D material called Molybdenum Disulfide (MoS2) to create a transistor that can drive flexible OLED displays.
For it's all about a technique that comprises of silk in liquid form, which is converted to a membrane that exhibits properties of insulators and can function as flexible thin film transistors.
Durable, flexible displays have been made possible by our leadership in plastic electronics technology and our development and industrialisation of the organic thin film transistor (OTFT).
This is not the first flexible ePaper display Sony's showcased, the company prototyping a while ago 4.8 - inch e-paper device with organic TFTs (thin - film transistors) that use the «PXX,» an organic semiconductor material stable to oxygen, moisture and light.
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.
A company called Plastic Logic had plans to release an e-reader called Que with a flexible substrate and organic transistors.
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.
Building upon the milestone reached in June 2015, FlexEnable and CPT will exhibit its glass - free, full colour, flexible AMOLED display, showcasing the performance of organic transistors, in combination with mainstream OLED manufacturing techniques.
Plastic Logic has developed a flexible plastic display technology using organic thin film transistors (OTFT).
The technology was first developed by the Cambridge University, uses high - resolution transistor arrays on flexible plastic substrates, manufactured at low temperature.
(PhysOrg.com)-- A clever but simple new way of making transistors out of high - performance organic microwires presents a potential path for products such as smart merchandise tags, light and cheap solar panels, and flexible...
Researchers have used nanotechnology to create transparent transistors and circuits, a step that promises a broad range of applications, from e-paper and flexible color screens for consumer electronics to «smart cards» and...
The display technology used in the product's creation makes use of a rugged, metal - foil e-paper display and a flexible, stainless - steel substrate for silicon thin - film - transistors (TFT).
The partnership between the two organisations combines the graphene expertise of the Cambridge Graphene Centre (CGC), with the transistor and display processing steps that Plastic Logic has already developed for flexible electronics.
A new prototype flexible display created by the University of Cambridge and UK firm Plastic Logic, represents the first time graphene has been used in a transistor - based flexible screen and may well provide the least expensive, easiest to manufacture solution for these devices yet.
Here we are manufacturing flexible ePaper displays in different sizes and form factors by combining ePaper technology with our leading organic - based transistor matrix.
Other research efforts into e-paper have involved using organic transistors embedded into flexible substrates, [33][34] including attempts to build them into conventional paper.
Our vision is to reach foldable and even stretchable displays using organic transistors — since our transistors are themselves fundamentally flexible, and in combination with truly flexible frontplanes like OLED, the entire display can be made to fold in half.
Plastic Logic's display technology, first developed at Cambridge University, uses highresolution transistor arrays on flexible plastic substrates, manufactured at a low temperature.
Its latest flexible OLED is the world's first to be made using fully organic transistors — and it's surprisingly pleasing display could wrap around your entire wrist.
AMOLED displays, as per a recent report from IHS Markit, will witness a rise in 2017 owing to the introduction of devices with flexible display and wearables, while the usage of LCD Thin Film Transistor (TFT) displays will decline.