Designed by scientists at Cambridge University's Cavendish Laboratory, Plastic Logic utilizes
flexible plastic technology that has been in development for 10 years.
Developed by scientists at Cambridge University's Cavendish Laboratory, Plastic Logic uses
flexible plastic technology that has been in development for 10 years now.
Originally developed by scientists at Cambridge University's Cavendish Laboratory, the Plastic Logic uses
flexible plastic technology that has been in development for 10 years now.
Not exact matches
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.
There are several industry collaborations that are working to identify
technologies to make collection and sortation of
flexible packaging waste feasible and economically effective, as well as research into chemical recycling, which degrades the mixed
plastics into monomers or basic chemicals to turn into new products.
So - called
flexible electronics
technology is most often associated with slim computer displays that bend like
plastic.
Although the use of rigid metal and
plastic parts tends to result in stiff, mechanical motion, a team at the Massachusetts Institute of
Technology (M.I.T.) is experimenting with the use of a single piece of
flexible silicon and urethane polymer to create robotic fish that smoothly wriggle through the water much like their natural counterparts.
An industry collaborative today announced the findings of a research program which showed that automated sorting
technologies in use today can be optimized to capture
flexible plastic packaging.
From 1998 to 2001, he served as
Technology Manager for the
Flexible Plastics Business Organization and subsequently as Business Unit Manager for the Polyethylene Business.
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 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.
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.
The device is based on the «Reflex LCD»
technology so that the Boogie Board is in reality a
flexible plastic that is sensitive to pressure.
Plastic Logic's pride and joy is the
flexible screen
technology called «PlasticPaper.»
The flex AMOLED display was made using
Plastic Logic's truly
flexible oTFT backplane
technology, combined with Novaled's OLED frontplane materials.
Splinterproof display is there to be seen in e-readers like
Plastic Logic's Que e-reader and also many manufacturers like e-Ink and Bridgestone are planning to develop
flexible e-reader display
technology.
A reliable source from the company confirmed to me they were working at the project for the last two years, and now all the pieces of the puzzle are finally coming together: better
technology (Processor, RAM and
flexible plastic screen), ripe software, an affordable price for the customers, and a generous investor believing in the future of large e-readers.
«Our leading - edge
plastic electronic
technology, proven manufacturing process and can - do customer focus enables our customers to bring robust,
flexible, functional, low - power glass - free display - based products to market, which creates exciting opportunities for market growth, differentiation and competitive advantage.
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).
New
flexible display
technology from
Plastic Logic promises good things, too, however the main problem remains not how to display text, rather it is how to link different versions of the same text together for use across devices, because what we call «books» today are now available in many different contexts and interfaces.
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 di
Plastic Logic's unique
flexible transistor
technology beyond
plastic di
plastic displays.
But the
technology is rapidly moving to
plastic substrates that will make e-paper almost as
flexible as... paper.
Plastic Logic has developed a flexible plastic display technology using organic thin film transistors
Plastic Logic has developed a
flexible plastic display technology using organic thin film transistors
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.
Let our
plastic electronics
technology open up a world of
flexible product possibilities for your customers... More
Plastic Logic's electrophoretic display
technology makes the badges robust, but
flexible, whilst being incredibly low power for multiple days usage, combined with Blendology's «OneTap»
technology.
To build e-paper, several different
technologies exist, some using
plastic substrate and electronics so that the display is
flexible.
As with electrophoretic
technology, e-paper displays built using Liquavista's
technology could be manufactured on a
flexible plastic substrate, making them thinner and lighter.
The display uses E Ink's Fina screen
technology, which is glass - based, unlike Sony's 13.3 - inch DPT - S1 PDF reader, which uses a
flexible plastic - based Mobius screen.
If you want to know more about
flexible plastic e-paper display
technology's suitability for a given use case and to get some inspiration via the applications which are already successfully showcasing the opportunities and rewards achievable through
flexible e-paper innovation check out our latest
flexible e-paper whitepaper.
By incorporating
Plastic Logic's leading - edge flexible plastic electronic technology, L!BER8 has created a bracelet whereby the f
Plastic Logic's leading - edge
flexible plastic electronic technology, L!BER8 has created a bracelet whereby the f
plastic electronic
technology, L!BER8 has created a bracelet whereby the final...
Plastic Logic owns the leading OTFT
technology that is suitable for developing
flexible EPD device in wearable applications.
Our leading - edge
plastic electronic
technology, proven manufacturing process and can - do customer focus enables our customers to bring robust,
flexible, functional, low - power glass - free display - based products to market which create exciting opportunities for market growth, differentiation and competitive advantage.
This was essentially a reintroduction of the well - known electrophoretic display
technology, but microcapsules meant the display could be made on
flexible plastic sheets instead of glass.
Plastic Logic's display technology, first developed at Cambridge University, uses highresolution transistor arrays on flexible plastic substrates, manufactured at a low tempe
Plastic Logic's display
technology, first developed at Cambridge University, uses highresolution transistor arrays on
flexible plastic substrates, manufactured at a low tempe
plastic substrates, manufactured at a low temperature.
According to a new report by The Wall Street Journal, the supplier has figured out a way to manufacture
flexible liquid crystal display (LCD) panels using
technology and processes it already has at its disposal.Set to begin mass production in 2018, Japan Display's
flexible LCD panels are said to be built with a layer of
plastic instead of glass.
Samsung unveiled its Youm
flexible display
technology at the 2013 Consumer Electronics Show and showcased at the 2014 CES a
flexible display prototype made with a
plastic substrate, which works well with AMOLED displays.
«Apple's choice of a
plastic AMOLED as the display medium for its Watch reflects not only its strategy of emphasizing quality, but also suggests increasing confidence in
flexible displays as an enabling
technology for wearable computers,» Annis added.
The company has since incorporated the
technology into devices like the Galaxy S6 Edge, Galaxy S6 Edge + and the recently - launched Galaxy S7 Edge, all of which come with OLED displays that are manufactured on a
flexible plastic substrate, allowing for the curved edges along both sides.