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"Whether nanotechnology had ever showed up or not, electronics would have gotten there anyway," says Professor Saraswat. For the past four decades, the number of transistors that can be put on a chip, or equivalently, the number of information processing events that can be done per chip, has doubled every twenty-two months; concomitantly, the cost per processing event has dropped. Following this trend called Moore's Law, microelectronics has steadily settled into nanoelectronics in the past decade.

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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."
"Whether nanotechnology had ever showed up or not, electronics would have gotten there anyway," says Professor Saraswat. For the past four decades, the number of transistors that can be put on a chip, or equivalently, the number of information processing events that can be done per chip, has doubled every twenty-two months; concomitantly, the cost per processing event has dropped. Following this trend called Moore's Law, microelectronics has steadily settled into nanoelectronics in the past decade.
Nature's own marvelous nanoscale machines include motors that spin bacterial flagella at up to 1000 revolutions per second and polymerases that step along DNA and RNA to facilitate the flow of genetic information. Block, along with other Stanford researchers such as Professors W. E. Moerner (Chemistry) and Steve Chu (Physics), are studying Nature's machines through single molecule science. This young field is devoted to following molecules one at a time rather than observing their averaged behavior, as has been done traditionally. To understand why average properties may obscure molecular behavior, "Consider a ship traveling from New York to San Francisco," says Block. "If it's small enough, it will travel down into the Caribbean and go across the Panama Canal and then back up to San Francisco. If it's a big oil tanker, it won't fit through the Panama Canal; it's got to go all the way around Cape Horn. But the average path of a ship traveling from New York to San Francisco would probably come out somewhere in the middle of the Amazon where there is in fact no route at all!"