[Top10-devel] Local Representative Position

[gal olaf]

The main challenge in 3-D IC design is performance-weakening heat dissipation, 
which is already a problem in 2-D chips, as any Stanford students who have 
written a term paper with their laptops on their laps know. The multi-layer 
design of 3-D ICs exacerbates the problem, and Mechanical Engineering 
Professors Ken Goodson and Tom Kenney have been working on flowing fluid 
through microchannels incorporated in the chips to conduct the heat away.








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As the global energy demand continues to rise, the need for renewable energy 
sources has become ever more urgent. One candidate fuel for the future is 
hydrogen. Professor McGehee is hot on the trail, developing solar cells to 
generate electricity, which can then be used to zap water apart 
electrolytically into hydrogen (and oxygen) with 80% efficiency.
18 Stanford Scientific Review successfully demonstrated their use as highly sensitive toxic gas sensors, and 
with Professor Calvin Quate (Electrical Engineering), has commercialized nanotubes as scanning probe tips to 
increase probe resolution and tip durability. An area that Dai has just begun exploring is the drug delivery 
potential of carbon nanotubes. "The tube has a large surface area and is empty inside. So either you can 
attach the drug to the outer surface, or fill it up like a test tube," says Dai. Furthermore, multiple 
functional molecules can be attached to the surface: "Say, a molecule that fluoresces to tell you where 
the drug is in the cell and an antibody that specifically targets the site of drug delivery." So far, 
Dai reports that his research finds nanotubes to be quite "biologically friendly."