Slim and sturdy solar cells: nanocrystals offer path to electricity.

Engineers have for years been developing solar cells made of inexpensive plastic, but the devices have limitations. For instance, the cells' short lifetimes when exposed to sunlight have prevented these inventions from getting beyond the prototype phase. Now, researchers describe a solar cell made of thin films of inorganic nanocrystals that have several of the advantages of plastic but avoid some of its shortcomings A shortcoming is a character flaw.

Shortcomings may also be:

Shortcomings (SATC episode), an episode of the television series Sex and the City

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Researchers first turned to semiconducting plastics to devise solar cells because such materials are cheaper to produce than silicon, the main ingredient of conventional solar cells, and are more flexible. Plastic formulations also open the possibility of printing solar cells onto various surfaces, much as ink is printed on a newspaper.

Semiconducting plastics, however, break down over time, says Ilan Gur, a graduate student and materials science materials science

Study of the properties of solid materials and how those properties are determined by the material's composition and structure, both macroscopic and microscopic. engineer at Lawrence Berkeley (Calif.) National Laboratory and the University of California, Berkeley The University of California, Berkeley is a public research university located in Berkeley, California, United States. Commonly referred to as UC Berkeley, Berkeley and Cal . So, he and his colleagues decided to make a similar solar cell out of durable inorganic materials instead.

The researchers designed their inorganic cell around the same electron-donor-and-acceptor system used in plastic solar cells. The team deposited a thin layer of electron-rich cadmium telluride Cadmium telluride (CdTe) is a crystalline compound formed from cadmium and tellurium with a zinc blende (cubic) crystal structure (space group F43m). In the bulk crystalline form it is a direct bandgap semiconductor. CdTe is also a strong solar cell material. nanocrystals atop electrically conductive glass and then applied a thin layer of electron-hungry cadmium selenide Cadmium selenide (CdSe) is a solid, binary compound of cadmium and selenium. Common names for this compound are cadmium (II) selenide, cadmium selenide, and cadmoselite. nanocrystals. Together, the two layers are about 200 nanometers thick.

The scientists topped off their stack with electrically conductive aluminum. When the solar cell is illuminated, electrons generate a current as they move through the nanocrystal layers to the aluminum contact.

Conventional silicon solar cells convert between 10 and 15 percent of the sun's energy into electricity. The prototype inorganic nanocrystal solar cells Nanocrystal solar cells or quantum dot solar cells, are solar cells based on a silicon substrate with a coating of nanocrystals.

While previous methods of quantum dot creation relied on expensive molecular beam epitaxy processes, fabrication using colloidal synthesis allows have efficiencies of only about 3 percent, the group reports in the Oct. 21 Science. Gur notes that this efficiency is "in the same ballpark" as that of today's plastic models. With improvement, he says, the nanocrystal approach could become "a general strategy to cheaply produce solar cells."

The research "points to a potentially promising direction," says Moungi G. Bawendi, a physical chemist at the Massachusetts Institute of Technology Massachusetts Institute of Technology, at Cambridge; coeducational; chartered 1861, opened 1865 in Boston, moved 1916. It has long been recognized as an outstanding technological institute and its Sloan School of Management has notable programs in business, . He notes, however, that it has a high-temperature processing step that would make the solar cells difficult to incorporate into some materials.

"It opens the door for printing solar cells made with inorganic materials," says Michael McGehee, a materials scientist at Stanford University Stanford University, at Stanford, Calif.; coeducational; chartered 1885, opened 1891 as Leland Stanford Junior Univ. (still the legal name). The original campus was designed by Frederick Law Olmsted. David Starr Jordan was its first president. . While the efficiency isn't good enough yet, he notes, "I think we should take every reasonable approach we can think of because it's so important to find one that works."

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Title Annotation:	This Week
Author:	Cunningham, A.
Publication:	Science News
Geographic Code:	1USA
Date:	Oct 22, 2005
Words:	408
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Topics:	Semiconductors Research Semiconductors (Materials) Research Solar batteries Research Solar cells Research

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