Printed, Flexible and Organic Electronics
Printed, Flexible and Organic Electronics
Printed Electronics, being thin film silicon or inorganic or organic semiconductors, can be used to form Thin Film Transistor Circuits (TFTCs), such as replacing the functionality of simple silicon chips. TFTCs also employ thin film conductors and dielectrics and the ultimate objective is to make many different components at the same time - such as displays, batteries, sensors, microphones etc using the same materials or at least the same deposition techniques thus saving cost and improving reliability. Some TFTCs will be capable of covering large areas to affordably form electronic billboards, smart shelves and so on. They will be lightweight, rugged and mechanically flexible. Often they will be made by rapid, high-volume reel-to-reel processing even forming a part of regular printing processes for graphics. These circuits will be cheap enough to permit electronics where envisaged silicon chips are always or almost always too expensive, where multiple components and needed, and where silicon is impracticle (e.g. not flexible, brittle, thick etc).
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Printed, Flexible and Organic Electronics
Company
Topic
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2016
16 Jun 2016
Grant to mass produce injection molded electronics
TactoTek has announced that it has been named a recipient of a €2.5 million EU Horizon 2020 award to mass produce injection molded electronics solutions.
15 Jun 2016
New nanomaterial offers promise in bendable, wearable electronics
An ultrathin film that is both transparent and highly conductive to electric current has been produced by a cheap and simple method devised by an international team of nano materials researchers.
14 Jun 2016
Visionect Shows Award Winning ePaper Conference Room Signage
Video Interview with Visionect at the IDTechEx Show! (27-28 April, 2016 | Berlin, Germany)
13 Jun 2016
Microcontrollers and single-board computers 2016-2026
The unique new IDTechEx Research report, Microcontrollers and Single-board Computers 2016-2026, is the first to reveal the big picture developing from the close relationship between these devices. It provides newly researched forecasts leading to figures such as $300bn in 2026 for SBC alone.
9 Jun 2016
Ceradrop Shows Equipment for Printed Electronics and 3D Printing
Video interview with Ceradrop at the IDTechEx Show! (27-28 April, 2016 | Berlin, Germany).
9 Jun 2016
Amorphous thin film using unique sputtering target material
AGC Asahi Glass has developed a uniform amorphous thin film using a unique sputtering target material, and has started industrialization and commercial production of the material.
8 Jun 2016
Hitachi Europe at the IDTechEx Show! 2016 in Berlin
Video interview with Hitatchi Europe at the IDTechEx Show! (27-28 April, 2016 | Berlin, Germany)
8 Jun 2016
High throughput digital inkjet deposition
A new, high speed roll-to-roll configuration of a manufacturing and printing system, enabling high volume digital deposition of decorative graphic and functional inks on flexible substrates.
7 Jun 2016
Smart shading system
A new smart shading system consisting of electrochromic elements - developed in the current EU project EELICON - can be retrofitted, for example, to car windows.
7 Jun 2016
Directa Plus joins AIM of the London Stock Exchange
Directa Plus, a producer and supplier of graphene-based products for use in consumer and industrial markets, is pleased to announce that trading in its Ordinary Shares has commenced on AIM.
6 Jun 2016
DuPont Talks Conductive Inks at the IDTechEx Show! 2016 in Berlin
Video interview with DuPont at the IDTechEx Show! (27-28 April, 2016 | Berlin, Germany).
3 Jun 2016
Industrial internet solution for a printed electronics plant
VTT's printed electronics pilot plant in Finland has moved into a new era - an industrial internet-based solution, the first for the printed electronics production in the world, has been installed for the control of the plant.
1 Jun 2016
Fast, stretchy circuits could yield new wave of wearable electronics
Engineers have created the world's fastest stretchable, wearable integrated circuits, an advance that could drive the Internet of Things and a much more connected, high-speed wireless world.
31 May 2016
Will conductive inks help wearables go truly wearable?
The first generation of wearable devices are constructed using mature, rigid technologies put inside a new box that can be worn. These are often bulky devices that are not truly wearable in the sense that our clothes are. This is, however, beginning to change, albeit slowly.
31 May 2016
Butler Technologies, Inc.
Butler Technologies is 25-year-old precision screen printer specializing in the manufacture of membrane switches, graphics, etc. generating around $8-10m each year and employing around 60 people today.
31 May 2016
Copprint
Copprint is a start-up offering copper inks. It is reporting fantastic initial results. Its initial results suggest that it can achieve 50% bulk conductivity whilst only requiring a short 2-second anneal using a simple oven system at 125-250C.
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26 May 2016
Large-scale technique to produce quantum dots
A method to produce significant amounts of semiconducting nanoparticles for light-emitting displays, sensors, solar panels and biomedical applications has gained momentum.
26 May 2016
Nanosys introduces Hyperion quantum dots
Nanosys, Inc., has introduced Hyperion Quantum Dots, a new Quantum Dot material system that represents a significant development breakthrough in unlocking the market for displays meeting the BT.2020 UltraHD color standard.
23 May 2016
Self-healing, flexible electronic material functions after many breaks
Electronic materials have been a major stumbling block for the advance of flexible electronics because existing materials do not function well after breaking and healing. A new electronic material created by an international team, however, can heal all its functions automatically even after breaking multiple times.
20 May 2016
Printing metal in midair
The increasing demand for flexible, wearable electronics, sensors, antennas, and biomedical devices has led a research team to innovate an eye-popping way of printing complex metallic architectures as though seemingly suspended in midair.
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