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
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2012
14 May 2012
Nanotube technology leading to fast, lower-cost medical diagnostics
Researchers at Oregon State University have tapped into the extraordinary power of carbon "nanotubes" to increase the speed of biological sensors, a technology that might one day allow a doctor to routinely perform lab tests in minutes, speeding diagnosis and treatment while reducing costs.
11 May 2012
Paper with good sound quality
At drupa print media fair, the Institute for Print and Media Technology of Chemnitz University of Technology presents printed loudspeakers on paper substrate and a solar tree with printed solar cells.
11 May 2012
Et Tu Barclé?
Be it betrayal or euthanasia, Clinton Card's demise was due to a dearth of innovation, however the intrigues of the trio Barclays, Lloyds and American Greetings remain a mystery. What we do know is that Clinton has failed where many thrive - not least MoonPig®, Card Factory® and American Greetings®.
10 May 2012
NovaCentrix launches new PulseForge
The new PulseForge variant offers increased production speeds and decreased consumables cost in comparison to the other PulseForge tools, which already lead the industry. Additionally, the new X2 variant optimizes the high-speed drying capabilities of the PulseForge tools.
8 May 2012
eMagin's follow-on OLED order for U.S. Army Remote Viewer Program
Deliveries under the original contract began in 2009 and are expected to continue into 2013.
7 May 2012
UK research brings quantum computing closer to reality
The UK-USF team showed that a flat sheet of pure carbon only one atom thick, called graphene, can be suitably engineered and used for this purpose when combined with atoms of the metallic element cobalt.
4 May 2012
New laboratories dedicated to micro and organic electronics
Arkema and CEA are to extend their existing collaboration in photovoltaics to the field of micro-electronics and organic electronics by setting up two joint research laboratories.
3 May 2012
Universal Display & Fraunhofer agreement for white OLED lighting
OLED lighting has the potential to lower global energy demands and lessen the environmental impacts associated with lighting.
24 Apr 2012
New York designer and Novaled create new OLED light
New York artist and designer Marcus Tremonto, in cooperation with Novaled has designed PAD, a new transparent OLED suspension light.
20 Apr 2012
Thinfilm wins IDTechEx Product Development Award
The IDTechEx Product Development Award is given to companies who have launched new printed electronics products and are in the process of bringing them to market.
20 Apr 2012
Optomec showcased 3D printed electronics
The showcase follows a recent announcement by Stratasys and Optomec on their joint development of groundbreaking technology that merges 3D Printing and Printed Electronics capabilities to produce fully printed electro/mechanical smart structures.
19 Apr 2012
Intrinsiq €1.3M Programme to Develop Copper Ink Medical Device
The consortium consists of distinguished specialist partners - Leeds University, ELISHA Systems Ltd, The Ryedale Group, The Needham Group, Amies Innovations and P1 Technology, with Intrinsiq Materials leading the programme and providing their novel copper ink technology.
18 Apr 2012
IDTechEx visits South Korea
IDTechEx recently visited South Korea as part of a UK Trade and Investment mission. Here we summarise some highlights of the trip.
18 Apr 2012
Aerotech's new catalog
New Catalog - motion and automation for test, measurement and inspection.
17 Apr 2012
IDTechEx launch Printed Electronics World Directory and Buyers Guide
Designed to serve as an important link to assist communications between the various organisations active in Printed Electronics, it will carry a list of organizations segmented by their activity and alphabetically - compiled from our extensive database.
16 Apr 2012
Polyera raises $24.5MM in series C funding
The company plans to use the funds to accelerate development activities while making a major investment in its Asia-Pacific operations in preparation for market launch.
12 Apr 2012
Impressions from Printed Electronics Europe 2012
The presentations with a focus on thin film photovoltaics covered topics relevant to both organic and inorganic technologies but also discussed the importance of incumbent technologies.
11 Apr 2012
The A3200 Automation Controller
Designed for 24/7 demanding environments, the A3200 Automation Controller includes active cooling, full functionality on a single PCB, optional SSD and advanced motherboard watchdog technology.
10 Apr 2012
Plastic electronics: a neat solution
A breakthrough in the development of a new generation of plastic electronic circuits by researchers at the Cavendish Laboratory brings flexible and transparent intelligent materials - such as artificial skin and interactive playing cards - a step closer.
9 Apr 2012
All in a day's work: Design and print your own robot
Funded by a $10 million grant from the National Science Foundation (NSF), the project will aim to develop a desktop technology that would make it possible for the average person to design, customize and print a specialized robot in a matter of hours.
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