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...
Rapid prototyping (RP) of medical devices and custom-made prosthetic implants
is also an area of growing interest and subject to intensive research during
the last decades.
The more dots there are, the more accurate a picture you get when you connect them. A new imaging technology could give scientists the ability to simultaneously measure as many as 100 or more distinct features in or on a...
The Minerals, Metals & Materials Society (TMS) has continued its global mission by signing a Memorandum of Understanding with the Metallurgical Society of the Canadian Institute of Mining, Metallurgy, and Petroleum (...
The Minerals, Metals and Materials Society (TMS) continued its global mission by signing a Memorandum of Understanding with the Associacao Brasileira de Metalurgia, Materiais e Mineracao (ABM) during a special meeting at...
Veeco
Instruments Inc. announced today that three of its technology
experts will make presentations at worldwide solar industry events and tradeshows
in May 2009.
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...
The speed at which heat moves between two materials touching each other is
a potent indicator of how strongly they are bonded to each other, according
to a new study by researchers at Rensselaer
Polytechnic Institute.
Kansas State University engineers
think the possibilities are deep for a very thin material. Vikas Berry, assistant
professor of chemical engineering, is leading research combining biological
materials with graphene, a recently developed carbon material that is only a
single atom thick.
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.
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