Sunflowers track the sun as it moves from east to west. But people usually have to convert sunlight into electricity or heat to put its power to use.
Now, a team of University of Florida chemists is the latest to repo...
EV Group (EVG), a leading supplier of wafer bonding and lithography equipment for the MEMS, nanotechnology and semiconductor markets, today announced that EPCOS - a leading electronic components, modules and systems manu...
Carnegie Mellon University's Katayun Barmak, with the help of Microscopy Lab Supervisor Thomas Nuhfer, is one of the first materials scientists worldwide to successfully map polycrystalline structures on a nanoscale.
Once again, BASF is presenting ideas for innovative technical textiles at Techtextil 2009 (Hall 3.0, Stand B79) in Frankfurt/Main, Germany on June 16 - 18. In addition to a variety of textile coating solutions, the focus...
IMEC, Europe’s leading independent nanoelectronics research center on leading-edge process technology for the next generations of IC manufacturing, has signed a new and expanded research agreement with Taiwan Semiconduct...
SCHOTT Solar, a leading photovoltaics manufacturer, entered into a 3 year research partnership with IMEC, Europe's leading independent nanoelectronics research center. SCHOTT Solar joins IMEC's newly launched sil...
Shrink Technologies, Inc. ("Shrink Technologies"), a California corporation, has agreed to be acquired in a stock-for-stock transaction by Shrink Nanotechnologies, Inc. (OTCBB: AUIO). The transaction closed on ...
An over-the-counter prostate cancer test kit could be coming to a pharmacy near you, thanks to the collaborative work of a University of Central Florida chemist and M.D. Anderson Cancer Center Orlando researchers.
Optomec, world-leading provider of additive manufacturing systems for high-performance applications in the Photovoltaic, Electronics, Biomedical, and Aerospace + Defense markets, announced today that the company's Ae...
Nanoelectromechanical systems (NEMS) devices have the potential to revolutionize the world of sensors: motion, chemical, temperature, etc. But taking electromechanical devices from the micro scale down to the nano requires finding a means to dissipate the heat output of this tiny gadgetry.
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