The success of today’s digital electronics is based on the CMOS technology. Novaled found a way to translate the classical inorganic CMOS-approach to the world of organic electronics paving the road of organic elec...
The fastest quantum computer bit that exploits the main advantage of the qubit over the conventional bit has been demonstrated by researchers at University of Michigan, U.S. Naval Research Laboratory and the University o...
The semiconductor silicon and the ferromagnet iron are the basis for much of mankind's technology, used in everything from computers to electric motors. In this week's issue of the journal Nature (August 21st) an international group of scientists, including academic and industrial researchers from the UK, USA and Lesotho, report that they have combined these elements with a small amount of another common metal, manganese, to create a new material which is neither a magnet nor an ordinary semiconductor.
The proliferation of solar, wind and even tidal electric generation and the rapid emergence of hybrid electric automobiles demands flexible and reliable methods of high-capacity electrical storage. Now a team of Penn Sta...
The research group lead by Professor Hannu Häkkinen of the Nanoscience Centre of the University of Jyväskylä, published an article concerning the structure of gold nanoparticles in a prominent American sci...
Celebrating a successful year highlighted by reaching a major milestone with the first commercial use of its breakthrough ultracapacitor nanotechnology, Enable IPC Corp., a leading company that turns technologies into pr...
Semiconductor equipment supplier Tegal Corporation and CIMAC, a leading software service solutions provider, announced today that they have entered into a partnership to create enhanced operating systems and user interfa...
Researchers from the National Institute of Standards and Technology (NIST) and the Joint Quantum Institute (JQI), a collaborative center of the University of Maryland and NIST, have reported a new way to fine-tune the light coming from quantum dots by manipulating them with pairs of lasers. Their technique, published in Physical Review Letters,* could significantly improve quantum dots as a source of pairs of "entangled" photons, a property with important applications in quantum information technologies.
The global market for nanomaterials for electronics applications will reach $600 million in 2008 and grow at a compound annual rate of more than 40% to reach nearly $7 billion in 2015, according to a report Market Outloo...
A Queen's University Belfast scientist, whose research is now used worldwide in blood analysing equipment, has made another important discovery.
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