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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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McGehee makes his solar cells by mixing a titania gel precursor and a special semiconducting polymer, which self-assemble into titania (TiO2) films with polymer-filled pores 20 nm in diameter. Currently, McGehee is still working to improve the efficiency of his solar cells and their resistance to degradation over time in sunlight. "Right now, we're at 2% efficiency, and we want to get to 15%." 15%? That might seem low, but silicon-based cells operate at 12% efficiency, and most importantly, as McGehee points out, "there's a lot of sunlight out there."
In other applications of carbon nanotubes, Dai has Professor Michael McGehee is developing cheap and efficient nanostructured solar cells.

