Next Generation Solar Cells _ Lowering Costs, Improving Performance and Scale
Tonio Buonassisi, Assistant Professor, Laboratory for Photovoltaic Research
Description: According to Tonio Buonassisi, we're "on the cusp" of achieving a competitive technology for capturing the limitless energy of the sun. Buonassisi, in conversation with an MIT Museum audience, describes how, with the work of MIT and other researchers, photovoltaics may finally be coming into its own.
Buonassisi describes solar cells as his "life's passion" since age 16, but scientists have been laboring somewhat longer to figure out how to convert sunlight to useful power on Earth. In 1954, Bell Labs pioneered the first solar cell. It took 12 thousand dollars' worth of these "to run an ordinary household toaster," says Buonassisi. In spite of a great leap forward in the 1990s, with breakthroughs around the purification of silicon crystals and large subsidies for national industries in Japan and Germany, solar energy today constitutes just 1% of total electric generation worldwide.
The process behind solar cells appears straightforward, involving the sun's light energy (photons) exciting electrons inside some substrate; the separation of positive and negative charges; and then the collection of those charges into an external circuit. Yet scaling up this industry to compete with coal and other fossil fuels has proven daunting. Buonassisi sees several hurdles to overcome: lower materials and processing costs, improved conversion efficiencies of cells, and better manufacturing yields. He says that it takes half a square meter"sized solar panel to power a 100"watt bulb, for instance, and it would require a land area equivalent to 1/3rd the size of Nevada to convert enough sunlight to electricity for the whole U.S. In some parts of the world with intense, year"round sun, solar makes sense already, but in the cloudy, wintry northeastern U.S., huge subsidies are still required to make a go of it.
Buonassisi is still optimistic: His own group removes impurities from materials that serve as wafers for solar cells, so cells can convert photons to electrons more effectively. While technological advances in photovoltaics research have not followed Moore's Law, Buonassisi believes that research can "kick off the constraint" on efficiency and performance. By the end of the next decade, photovoltaics may be "hitting some big potential markets, hundreds of millions of people."
About the Speaker(s): Tonio Buonassisi runs a lab whose mission involves accelerating the adoption of photovoltaics through improvements in efficiency, cost reduction and materials utilization, among other things. At U.C. Berkeley, where he earned his Ph.D., Buonassisi explored multicrystalline silicon solar cells. He then became a crystal growth scientist at Evergreen Solar, Inc. Buonassisi has also served as a visiting scientist at the Fraunhofer Institute for Solar Energy Systems (Freiburg, Germany), and at the Max"Planck"Institute for Microstructure Physics (Halle, Germany).
Buonassisi has authored or co"authored 58 articles on solar energy. He has received numerous honors, including the European Materials Research Society Young Scientist Presentation Award and the National Renewable Energy Laboratory Graduate Student Award.
Host(s): Office of the Provost, MIT Museum
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