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June 21st, 2010

Quantum dots to reduce heat loss in PV cells

Published on June 21st, 2010 | By: pwray@ceramics.org
Scanning transmission electron microscope (STEM) image of PbSe quantum dots. Inset shows Pb atomic columns of single quantum dot.

Scanning transmission electron microscope (STEM) image of PbSe quantum dots. Inset shows Pb atomic columns of single quantum dot. (Credit: John Silcox, Cornell University)

In a recent post at ScientificAmerican.com, David Bielo details many of the inefficiencies of photovoltaic cells. Although layered cells composed of various elements can convert more than 40 percent of sunlight into electricity, more simple semiconducting materials such as silicon hover around 20 percent when mass-produced. And, at best, such cells could convert only a third of incoming sunlight due to physical limits.

However, researchers at the universities of Minnesota and Texas may have reduced on of the major inefficiencies: heat loss. Nanosize crystals of semiconducting material, in this case a mixture of lead and selenium, move electrons fast enough to channel some of them faster than they can be lost as heat.

According to Bielo:

Solar cells employ semiconducting material because when a photon of sunlight of the right wavelength strikes that material, it knocks loose an electron, which can then be harvested as electrical current. But many of those loosened electrons dissipate as heat rather than being funneled out of the photovoltaic cell. Previous work in 2008 had shown that nanocrystals of semiconducting material can, in effect, slow down such “hot” electrons. As a result, these nanocrystals, also known as quantum dots, might be able to boost the efficiency of a solar cell.

In the June 18 issue of Science, researchers claim that quantum dots capture some of the “hot” electrons but they can also channel them to a typical electron-accepting material-the same titanium dioxide used in conventional solar cells. Because that transfer is so fast, fewer of the excited electrons are lost as heat, thus boosting the theoretical efficiency to as high as 66 percent.

Unfortunately, according to Bielo, that’s not all that’s required to build such a highly efficient solar cell. The next step would be to show that the captured electrons and transferred current can be carried away on a wire, as in a conventional solar cell. The challenge will be making a wire small enough to connect to a solar cell incorporating a quantum dot no bigger than 6.7 nanometers in diameter-and one that won’t lose much of the current as heat. And it would be years if not decades before such quantum dot-based solar cells might be manufactured.

 


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One Response to Quantum dots to reduce heat loss in PV cells

  1. Anonymous says:

    c’est un bon article parmi les bons qui discute ce sujet;mais ce qui il faut ajoutet c’est que on utlise les points quantique grace à sa bande intermidaire crée dans la bande intermidaire qui collecte les photon des energies faibles.

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