Nanotechnology Now

Our NanoNews Digest Sponsors

Heifer International

Wikipedia Affiliate Button

Home > News > A step closer to ultra low-cost disposable printed organic RFID tags

December 4th, 2007

A step closer to ultra low-cost disposable printed organic RFID tags

Researchers at the University of Washington (Seattle) and Stanford University (Palo Alto, Calif.) have been working towards this goal and have created the first all organic nanowire integrated circuit and although others have demonstrated organic n-type and p-type thin-film transistors fabricated via high-temperature thermal evaporation, graduate researcher Alejandro Briseno at the University of Washington states that their method not only provides a simple solution-processable method of fabricating inverters, but it also demonstrates the possibility of fabricating single-crystal nanowire transistors from both p- and n-type transistors at room temperature.


Delicious Digg Newsvine Google Yahoo Reddit Magnoliacom Furl Facebook

Related News Press

Law enforcement/Anti-Counterfeiting/Security/Loss prevention

Exotic property confirmed in natural material could lead to fundamental studies October 6th, 2016

Nanotech Grants Options September 22nd, 2016

NIST Patents Single-Photon Detector for Potential Encryption and Sensing Apps September 16th, 2016

Leti and Oberthur Technologies Partner to Explore New Solutions in Fast-growing Digital Era September 12th, 2016


Nanoantenna lighting-rod effect produces fast optical switches October 24th, 2016

New nanomedicine approach aims to improve HIV drug therapies October 24th, 2016

New method increases energy density in lithium batteries: Novel technique may lead to longer battery life in portable electronics and electrical vehicles October 24th, 2016

KaSAM-2016: International Conference on Material Sciences has successfully concluded in Pokhara of Western Nepal October 24th, 2016


Conformal transfer of graphene for reproducible device fabrication August 11th, 2015

GLOBALFOUNDRIES Launches Industry’s First 22nm FD-SOI Technology Platform: 22FDX offers the best combination of performance, power consumption and cost for IoT, mainstream mobile, RF connectivity, and networking July 13th, 2015

New micro-supercapacitor structure inspired by the intricate design of leaves: A team of scientists in Korea has devised a new method for making a graphene film for supercapacitors July 2nd, 2015

Designer electronics out of the printer: Optimized printing process enables custom organic electronics June 16th, 2015

The latest news from around the world, FREE

  Premium Products
Only the news you want to read!
 Learn More
University Technology Transfer & Patents
 Learn More
Full-service, expert consulting
 Learn More

Nanotechnology Now Featured Books


The Hunger Project