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Results 971 - 980 of 1000 for Computer modelling
  • News - 23 Jul 2007
    Superlatticed or “striped" nanorods – crystalline materials only a few molecules in thickness and made up of two or more semiconductors – are highly valued for their potential...
  • News - 9 Jun 2007
    Concerned that current methods for making computer chips might become stymied as components keep shrinking, many engineers are looking for circuit building blocks with improved electrical properties....
  • News - 30 May 2007
    The University of Cincinnati (UC) has received $1 million to establish a research center that will allow competing biomedical companies to pool their funding to develop new medical technologies for...
  • News - 15 May 2007
    Gang Chen's research with nano-scale materials gave him a head start in the field of nanotechnology when it was still brand new. Today, nano-materials, in which dimensions are measured in...
  • News - 4 Apr 2007
    Civil engineers by tradition are concerned with the big picture, but some are refocusing their vision, zooming in to solve minute problems we can't see with the naked eye, like tiny fractures in...
  • News - 29 Mar 2007
    At the root of scientific study are observations made with the eyes; yet in nanoscience, our eyes fail us. The smallest object we can see still looms thousands of times larger than a typical...
  • News - 28 Mar 2007
    At the root of scientific study are observations made with the eyes; yet in nanoscience, our eyes fail us. The smallest object we can see still looms thousands of times larger than a typical...
  • News - 15 Mar 2007
    Electrons love to zip around metals such as copper, especially if the metal is cooled to temperatures near absolute zero. But if they encounter a magnetic atom (say, iron) during their travels, the...
  • News - 27 Feb 2007
    In 2000, Georgia Tech researchers showed that fluid dynamics theory could be modified to work on the nanoscale, albeit in a vacuum. Now, seven years later they've shown that it can be modified to...
  • News - 19 Feb 2007
    A newly designed porous membrane, so thin it's invisible edge-on, may revolutionize the way doctors and scientists manipulate objects as small as a molecule. The 50-atom thick filter can...

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