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Harnessing 'hot' electrons could double efficiency of solar cells


July 11, 2010

Capturing heat energy currently lost from semiconductors could lead to cheaper and more efficient solar cells

Capturing heat energy currently lost from semiconductors could lead to cheaper and more efficient solar cells

Researchers from University of Minnesota have removed a barrier to improving solar cell efficiency by showing how heat energy currently lost from semiconductors can be captured and transferred to electric circuits. They hope manufacturers will use the results to produce solar cells with twice the output of current solar cells and at a lower cost.

In current solar cells, the topmost layer is made from a crystalline semiconductor, usually silicon, which absorbs excess solar energy in the form of "hot" electrons, and radiates the energy away before it can be harnessed. Up till now, capturing this heat into an electric circuit before it cools has not been possible, however the team constructed semiconductors of lead selenide only a few nanometers wide called “quantum dots”, and transferred the heat into wires of titanium dioxide successfully before the hot electrons cooled.

The next step will be to build and improve solar cells with quantum dots, but a further obstacle will need to be addressed; there is still heat loss from titanium dioxide. Up until now solar cell heat research has focused on heat exchangers that harness heat energy for building heating and cooling, rather than for solar power itself, or on heat-absorbing solar glazing; but now the potential is there for building solar cells with efficiencies approaching 66% compared to current efficiencies which rarely exceed 30%. The researchers are confident that their research has paved the way for high-efficiency, low-cost solar cells.

“This is a very promising result,” said William Tisdale, graduate researcher from UM. “We’ve shown that you can pull hot electrons out very quickly – before they lose their energy. This is exciting fundamental science.”

The research was published in this week's Science and carried out at the University of Minnesota's College of Science and Engineering. Collaborators were chemical engineering and materials science professors Eray Aydil and David Norris, and University of Minnesota graduate student William Tisdale. Other authors of the paper were Brooke Timp from the University of Minnesota and Kenrick Williams from UT-Austin. It was funded primarily by the U.S. Department of Energy, and partially by the National Science Foundation. Earlier grants provided by the Initiative for Renewable Energy and the Environment (IREE) also supported this research.


Good Progress in Solar Cell Efficiency.

Dr.A.Jagadeesh Nellore(AP),India

Anumakonda Jagadeesh

What about using thermoelectric converters in that application cooling down PV- is this feasible lowering their temperature requirements?

Gerfried Hans

. Even with my lack of understanding in technological terminology, I still see how this research and developement gives serious consideration to solar power as a serious source of alternate energy.

The 60 percent efficiency is equal to and may surpass conventional (fossil)

energy sources. And room for further developemen in this technology can already be seen.

The major advantge to the developement of this energy source is the availability of raw material used to generate it.

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