| Similar Articles |
|---|
 |
Chemistry World
April 29, 2007
Simon Hadlington |
Look, no wires! Researchers in Japan have created unique, thin flexible sheets that can transmit electrical energy to nearby devices without the need for direct electrical contact   |
Technology Research News
September 22, 2004
Eric Smalley |
Flexible Sensors Make Robot Skin Researchers have devised pressure-sensor arrays that promise to give objects like rugs and robots the equivalent of one aspect of skin -- pressure sensitivity. |
Chemistry World
December 10, 2009
Simon Hadlington |
Flexible organic flash memory Researchers have succeeded in making an elusive component of organic electronics: a flash memory transistor that can be incorporated into a thin, flexible plastic sheet. |
Chemistry World
August 7, 2008 |
Elastic Conductor Stretches Electronics Scientists have printed organic transistors onto elastic conducting materials to create stretchy electronic sheets. |
Technology Research News
July 28, 2004 |
Process prints silicon on plastic The components could be used in flexible large-area displays, radiofrequency ID tags, sensors, and flexible applications like reconfigurable antennas. |
IEEE Spectrum
February 2009
Mark Anderson |
Inside the Plastic Electronics Revolution IEEE Spectrum tours Plastic Logic's new fab in Dresden, Germany, where it will make its Kindle-killing e-reader |
IEEE Spectrum
April 2013
Ahn et al. |
The All-Electric Car You Never Plug In Wireless power transmission would let EVs draw their power from the road |
IEEE Spectrum
January 2008
Prachi Patel-Predd |
Sensitive Synthetic Skin in the Works for Prosthetic Arms Carbon nanotubes key to making synthetic skin that lets artificial limbs sense heat and touch. |
IEEE Spectrum
February 2013
Andrew J. Steckl |
Electronics on Paper Paper electronics could pave the way to a new generation of cheap, flexible gadgets |
Technology Research News
November 19, 2003 |
Plastic display circuit shines Researchers from the University of Tokyo have taken a step forward by fabricating on a glass surface a circuit that contains an organic light-emitting diode and an organic thin-film transistor. The diode was bright enough to be used in a display, according to the researchers. |
IEEE Spectrum
September 2008
Monica Heger |
At Long Last, Plastic Electronics Goes Commercial Plastic Logic begins production today, racing with Polymer Vision to get flexible e-readers into consumers' hands |
Military & Aerospace Electronics
June 2009
Courtney E. Howard |
Electronics miniaturization Nanotechnology and MEMS are ideal for mil-aero applications, given the increasing need for small, light weight, and low-power solutions. |
Technology Research News
November 5, 2003 |
Process prints silicon circuits Researchers from Princeton University have demonstrated a way to use a flexible stamp to print thin-film transistors. The researchers' eventual goal is to directly print electronics on flexible surfaces. |
Technology Research News
March 23, 2005 |
Layers promise cheap circuits The challenge is making organic transistors that work well electronically. |
Military & Aerospace Electronics
September 2006 |
MEMS in Mobile Handsets to Become Billion-Dollar Market by 2010 Consumption of microelectromechanical systems in mobile handsets reached $157 million in 2005, and will exceed $1 billion by 2010, consumption, reports a market researcher. |
Fast Company
March 2006
Lucas Conley |
Fast Forward Here is a portfolio of emerging technologies that could change the world in the next decade. |
Military & Aerospace Electronics
June 2007
Courtney E. Howard |
Science of the small Miniature MEMS and nanotechnology devices solve challenges in defense, security, and aerospace applications. |
CIO
October 15, 2003
Tom Krazit |
Xerox Minds Its MEMS If you think your data center is too crowded, pay attention to researchers at Xerox, who hope to make optical switches much smaller than today's devices. The secret lies in a technology called optical MEMS, or micro-electrical-mechanical systems. |
