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September 2007

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hieronymus gretchen <[log in to unmask]>
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CSUF Help for Listserv <[log in to unmask]>
Date:
Tue, 20 Feb 2007 19:05:41 +0000
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Currently, the gate length, the characteristic length parameter in transistors, has hit about 90 nm. The shorter the gate length, the faster transistors can switch on and off. In fact, the transistors have gotten so fast, that the delay as electrons flow through the skinnier and longer wires needed to cross larger, complex chips is on track to become the limiting factora in speed. This delay is just one of the fundamental problems that threatens to make the nanoscale regime of electronics unfaithful to Moore's Law and demands the design of new materials and structures or a complete shift in chip architecture.








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While sunlight is cheap, harnessing it is currently too expensive to be worthwhile on a large scale. For four years, McGehee and his graduate students have been working to make it cheaper to convert sunlight into electricity. While the silicon-based solar cells currently used generate electricity at $3/Watt, McGehee is aiming for nanostructured solar cells that are ten times cheaper at $.30/Watt. Once fully developed, McGehee's solar cells would be lower cost because the materials are cheaper. Moreover, they would be more lightweight and flexible so that "you could roll them out over rooftops," says McGehee.
All over campus, Stanford has eagerly embraced the "grand challenges" of nanotechnology. Just this April, the Stanford Nanofabrication Facility (SNF) hosted an open house to celebrate its selection to be part of the National Science Foundation-sponsored National Nanotechnology Infrastructure Network sprawling across thirteen universities nationwide. Along with the new Nanocharacterization Laboratory expanding the SNF, the nearly finished Manoharan lab that Stanford students bike past on the way to physics lab embodies the prominent place nanotechnology has in Stanford research for years to come. Specifically, the Manoharan lab is equipped to manipulate matter on an atomic level. Here's a cross-section of nanotechnology research currently being pursued at Stanford:

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