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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2017
20 Apr 2017
Ontario Government recognizes flexible and printable electronics
The Canadian Printable Electronics Industry Association has secured funding support from the Government of Ontario's Ministry of Economic Development and Growth - the first provincial government in Canada to recognize the value of this manufacturing sector to the nation's innovation-driven economy.
19 Apr 2017
Printing Technologies find their Place in Printed Electronics
Trends and progress with printing techniques for Printed Electronics.
19 Apr 2017
New equipment developments: The new Easycoater
The very successful S2S unit Easycoater from Coatema got a complete redesign.
19 Apr 2017
STANDARD GRAPHENE INC. and Applications
STANDARD GRAPHENE has been developing and manufacturing various application products with more than 50 companies around the world.
17 Apr 2017
New 3-D printing method creates shape-shifting objects
A team of researchers has developed a new 3-D printing method to create objects that can permanently transform into a range of different shapes in response to heat.
13 Apr 2017
Researchers print promising two-dimensional transistors
Researchers have fabricated printed transistors consisting entirely of two-dimensional nanomaterials for the first time.
12 Apr 2017
IDTechEx Announces the Winners of Launchpad
IDTechEx Launchpad will showcase innovations from 18 start-up companies at the IDTechEx Show! held in Berlin, Germany on 10-11 May 2017 (www.IDTechEx.com/europe).
12 Apr 2017
Platelets instead of quantum dots
A team of researchers has developed a model to clarify the general mechanism of nanoplatelet formation. Using pyrite, they also managed to confirm their theory.
12 Apr 2017
Touch-sensitive, elastic fibres
Researchershave created elastic, touch-sensitive fibres that can interface with electronic devices.
11 Apr 2017
Webinar Tuesday 25 April 2017 - Stretchable Electronics:
IDTechEx are hosting a free webinar on Tuesday 25 April 2017 titled Stretchable Electronics: No Longer Just a Solution Looking for a Problem
10 Apr 2017
Spray on memory could enable bendable digital storage
Researchers have brought us closer to a future of low-cost, flexible electronics by creating a new "spray-on" digital memory device using only an aerosol jet printer and nanoparticle inks.
7 Apr 2017
Flexible electronic devices with roll-to-roll overmolding technology
All smart electronics in products such as wrist-wearable computers are on a rigid board under the face of the watch. The roll-to-roll technique enables electronics to be printed on a plastic or elastomeric foil, which has various benefits such as thinness, lightness, elasticity and transparency.
7 Apr 2017
Thinfilm partners with Korean Red Cross in using NFC technology
The two groups are collaborating to replace the paper-based confirmation process currently used by the Korean Red Cross in its Windmill of Hope program to verify delivery and receipt of relief items and services such as food, clothing, and medication.
5 Apr 2017
Europe's Most Important Event on Emerging Technologies
The IDTechEx Show! takes place on 10 & 11 May in Berlin, hosting over 200 exhibitors and over 3,000 attendees.
5 Apr 2017
What does printed, organic, flexible electronics mean for you?
With a market size of almost $30 billion in 2017 and a growth potential to over $70 billion in ten years, the market of printed, organic and flexible electronics can no longer be neglected.
5 Apr 2017
New ultrafast flexible and transparent memory devices
An innovative new technique to produce the quickest, smallest, highest-capacity memories for flexible and transparent applications could pave the way for a future golden age of electronics.
4 Apr 2017
SID AR/VR Survey Results
Perhaps no technology in recent times, has generated more interest and investment than Virtual (VR) and Augmented Reality (AR). SID conducted a survey among their members on this technology and here are the results.
4 Apr 2017
Ink-jet printable and biocompatible layered electronics
Printed electronics can lead to both low-cost and flexible devices. Flexible electronics is of particular interest for wearable systems, such as health and fitness trackers, while the relative low-costs of printing are attractive for functional packaging for consumer products.
3 Apr 2017
IDTechEx Recruits Event VP Expanding Presence in North America
IDTechEx, the analyst and events firm covering emerging technologies, announces the expansion of its North American office with the hiring of Mary Ellen Guerrlich as VP Business Development, Events.
3 Apr 2017
Graphene grows up
IDTechEx has invited a series of industrial players and leaders active in graphene commercialization to contribute their opinions about the state of the technology and markets. As part of article series, we will today hear from Nanomedical Diagnostics who write about their progress with their commercial biophysical assay tool based on graphene transistors.
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