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
6 Dec 2012

Recent Advances in Printed Conductors to meet the Cost and Performance Needs of Emerging Printed Electronic Applications

DuPont Microcircuit Materials, United States
6 Dec 2012

Graphene and Beyond: Recent progress in the production of 2D materials

Graphene Laboratories, Inc, United States
6 Dec 2012

Graphene and Beyond: Recent Progress in the Production of 2D Materials

Graphene Laboratories, Inc, United States
6 Dec 2012

Printed Electronics and Consumer Packaged Goods: Adding value to the "Moments of Truth"

Ynvisible, Portugal
6 Dec 2012

Ultra Precision Coating & Printing Continuous Manufacturing System

Hanbat National University, Korea
6 Dec 2012

Functional inks for Flexible, Transparent and Printed Electronics

University of Cambridge, United Kingdom
6 Dec 2012

Silver Nanowires for Transparent Conductive Applications

Blue Nano Inc, United States
6 Dec 2012

How Our Paper Will Revolutionize Printed Electronics

Arjowiggins Creative Papers, France
6 Dec 2012

Functional inks for Flexible, Transparent and Printed Electronics

University of Cambridge, United Kingdom
6 Dec 2012

Printed Silicon for Sensors and Much More

PST Sensors, South Africa
6 Dec 2012

Printable CNT Conductors in Flexible Packaging and Wireless Sensors

Brewer Science, Inc.United States
6 Dec 2012

Printed Loudspeakers on Paper Substrate

Institute for Print & Media Technology, Germany
6 Dec 2012

Pushing the Limits in R2R Productions of Printed Electronics

Brewer Science, Inc.United States
6 Dec 2012

OrgaconGrid - Strategies Towards More Transparent And Higher Conductivity Flexible Electrodes

Agfa-Gevaert, Belgium
6 Dec 2012

High Mobility Semiconducting Inks for Electronic Applications

NanoIntegris, United States
6 Dec 2012

Organic photo-detectors, a ready-to-fly technology for Advertising, Merchandising and Consumer industries

ISORG, France
6 Dec 2012

High Mobility Semiconducting Inks for Electronic Applications

NanoIntegris, United States
6 Dec 2012

Conductive Polymer Films and Invisible Patterning Techniques for Transparent Electrode Applications

Heraeus PM Conductive Polymers Division, United States
6 Dec 2012

Enhanced display visibility by no-reflection Carbon Nanobud® transparent conductors and touch sensors

Canatu Ltd, Finland
6 Dec 2012

Thin-Film Sensors on Soft, Elastic Substrates

EPFL, Switzerland