Scientists at Rice University have found a simple way to create basic elements for aircraft, flat-screen TVs, electronics and other products that incorporate sheets of tough, electrically conductive material.
And the...
A world of potential may lie tied up in graphene nanoribbons, particularly for electronics applications.
But researchers have been hampered in their efforts to fully explore that potential because they had no reliable...
The structure and exact water content of calcined gypsum have remained a matter of speculation. Michael F. Bräu and Horst Weiss have now brought this speculation to an end: by using single-crystal structural analyses they were able to solve the structure, generate a structural model, and support it with computer calculations.
Andor Technology plc (Andor), a world leader in scientific imaging and spectroscopy solutions, has applied Electron Multiplying (EM) technology for the first time to dramatically improve both the speed and sensitivity of...
Researchers at MIT have found a novel method for etching extremely narrow lines on a microchip, using a material that can be switched from transparent to opaque, and vice versa, just by exposing it to certain wavelengths...
A University of Toronto research team from the Department of Chemistry has discovered useful "green" catalysts made from iron that might replace the much more expensive and toxic platinum metals typically used ...
Recent experiments to create a fast-reacting explosive by concocting it at
the nanoscopic level could result in more spectacular firework displays. But
more impressive to the Missouri
University of Science and Technology professor who led the research, the
method used to mix chemicals at that tiny scale could lead to new strong porous
materials for high temperature applications.
Pat Coady is one of the many professionals at Painters
USA, Inc. Pat has developed a program to instruct building owners and managers
about green coatings. This course enables them to receive CPD's (Continuing
Professional Development Points).
IMEC, the Belgian nanoelectronics
research institute, has announced that it has begun expanding its Leuven campus
facilities, starting with 2,800 square-meters of research labs and including
the extension of its state-of-the-art clean room. With this extension, IMEC
will expand its research on sub-32nm CMOS, low-cost and high-efficiency solar
cells, and biomedical electronics.
Improving the efficiency of commercially available light bulbs
-- even a little -- could translate into dramatically lower energy usage if
implemented widely.
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