KINTEC Company aims at supplying high quality indium-tin-oxide (ITO) coated
glasses and other TCO substrates at a low price, which is particularly suitable
for the academic and research...
News - 15 Jun 2009
Researchers have constructed a light-emitting transistor that has set a new
record with a signal-processing modulation speed of 4.3 gigahertz, breaking
the previous record of 1.7 gigahertz...
News - 18 Jul 2013
Imagine a paper-thin computer display you could roll up and carry around easily. The Flexible Electronics and Display Center at Arizona State University is advancing technologies to make that...
Article - 13 Jan 2004
Scientists have uncovered a light-emitting transistor that could make the transistor the fundamental element in optoelectronics as well as in electronics. Posted January 5 2003
Article - 27 Aug 2005
Nanostructures, with their quantum properties, can be used in many industries, especially the electronics and energy sectors. The classification, composition and properties of inorganic nanostructures...
Article - 13 Jul 2004
GE Global Research announced the development of the world’s best performing diode built from a carbon nanotube, which will enable smaller and faster electronic devices with increased functionality....
News - 18 Nov 2014
A team of researchers from the Max Planck Institute for Solid State Research, the Karlsruhe Institute of Technology, and the Max Planck EPFL Center have collaborated to develop a nanolamp with...
News - 4 Feb 2009
By integrating a solid-state electron emitter and a microcavity plasma device,
researchers at the University
of Illinois have created a plasma transistor that could be used to make...
Article - 25 Nov 2004
The team of researchers managed to achieve this breakthrough in III-V semiconductor construction by using a ‘bottom-up’ approach in the production process, rather than the conventional method of...
Article - 3 Mar 2004
This article describes nanoporous materials, nanofibres and nanowires. It provides background information, properties and applications for each type of material.