麻豆淫院

(麻豆淫院Org.com) -- "There is a lot of interest in creating more efficient solar cells that are also simpler than many of the designs common now," Wladek Walukiewicz tells 麻豆淫院Org.com. "We think that, through the mixing of certain semiconductors, this is possible."

Walukiewicz has lead a group of scientists working at the Lawrence Berkeley National Laboratory, Rose Street Labs Energy and Sumika Electronic Materials, Inc. They have been studying the properties of GaNAs alloys, and they believe that the characteristics of these semiconductor alloys could lead to more efficient solar cells. Their work appears in 麻豆淫院ical Review Letters: "Engineering the Electronic Band Structure for Multiband Solar Cells."

"In solar cells made of standard semiconductors, the electric current is produced by electron-hole pairs photo-excited across the band gap separating the conduction and the valence band," Walukiewicz explains. "Only the photons with the energy larger than the band gap can produce electric current. This creates the solar cell power conversion dilemma."

This dilemma is occurs when "a small gap semiconductor absorbs more photons and produces larger current but small voltage whereas a large gap semiconductor produces larger voltage but the current is limited because large fraction of the solar photons is not absorbed," he continues. "However, there is a gap between these bands, with no state. Normally, this doesn't conduct. Exciting a semiconductor with light can help, though."

This dilemma means that in order for a solar cell device to be efficient, it must be complex, incorporating different layers with different gaps so that different portions of the solar spectrum can be absorbed. 鈥淪ilicon solar cells are only up to20% efficient,鈥� Walukiewicz says. 鈥淭here are those that are as much as 40% efficient, but they are so complex 鈥� and expensive.鈥�

Walukiewicz and his colleagues believe that they have found a way around this. By using GaNAs alloys, the group has created a single material that can absorb multiple portions of the solar spectrum. 鈥淪cientists have been mixing semiconductors for years, creating materials with properties tailored for specific applications.鈥� Walukiewicz says. 鈥淏ut they were working with semiconductors that wanted to be mixed. We work with materials that don鈥檛 want to be mixed, using special methods to force them.鈥�

When this mixing happens, Walukiewicz points out, interesting properties are seen, like the one that allows for an intermediate band of states to be formed in a wide gap semiconductor. The band acts as a stepping stone in the semiconductor band gap. 鈥淥ur device is quite simple,鈥� he says. 鈥淔or years, people have been creating efficient solar cells using many semiconductors with different gaps. We have developed a semiconductor built with multiple bands.鈥�

As a result, solar cells developed with the GaNAs alloys have the potential to contribute to solving a problem in the world of solar energy. 鈥淲e don鈥檛 know exactly what to expect, but we estimate that a solar cell made as we describe would be more than 40% efficient,鈥� Walukiewicz says. 鈥淗owever, it would be much less complex than what is used now to do the same thing. Right now, it is common for 18 layers of semiconductors to be used to reach that level of efficiency. Our technique could possibly do it with four or five layers.鈥�

Such a device could be much easier to make, and could possibly be scalable for production for a wider market. It would also likely be more cost efficient. 鈥淥ur objective is to develop it to a point where it would be commercially viable, and even make a difference.鈥�

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