Developing More Efficient Solar Energy Cells

Jul 27, 2010 By Brianna Diaz
Dr. Alex Agrios (right) and Civil and Environmental Engineering graduate student Venkata Manthina, set up a new high pressure reactor in the C2E2 lab. Photo by Brianna Diaz

(PhysOrg.com) -- Alexander Agrios and his engineering research team are probing ways to make inexpensive solar cells more energy efficient.

Alexander Agrios is addressing pollution prevention by developing new forms of energy production. Through the development of innovative solar energy technologies, he hopes to help prevent or mitigate and transform the field of sustainable energy research.

Agrios says pollution prevention is intertwined with .

“Many of the pollution problems that we environmental engineers treat and try to remediate are a direct result of current energy practices and use,” he said. “I would like to work toward connecting the gaps between these fields.”

Hired under the state’s Eminent Faculty Initiative in Sustainable Energy, Agrios joined UConn’s Center for Engineering (C2E2) in fall 2009 as an assistant professor of environmental engineering in the Department of Civil & Environmental Engineering.

Agrios’ interest in energy began while he was a doctoral student at Northwestern University, where his research involved the use of nanoparticles in the photocatalytic treatment of certain environmental pollutants. During this time, Agrios discovered that researchers were using titanium dioxide nanoparticles - a material that he was using in his doctoral studies - to manufacture dye-sensitized solar cells.

His interest in solar energy propelled him into a five-year postdoctoral stint in Europe, thanks in part to an NSF International Research Fellowship. After receiving his Ph.D. in 2003, Agrios proceeded through successive positions at École Centrale de Lyon in France, École Polytechnique Fédérale de Lausanne in Switzerland, and finally Uppsala University in Sweden.

During his stay in Switzerland, Agrios had the opportunity to work with Professor Michael Grätzel, for whom the Grätzel cell is named. This cell, developed in the early 1990s by Grätzel and his associates, uses titanium dioxide nanoparticulates in conjunction with a photosensitized dye to convert sunlight into electrical energy.

Through his postdoctoral studies, Agrios gained a more comprehensive knowledge of solar cell technologies.
Among the technologies currently on the market, the most efficient and widely used are mono or polycrystalline silicon-based solar cells. Crystalline solar cells are formed by combining positive- and negative-type semiconductors that are fused together through a doping process. These fused cells absorb light and send positive and negative charges in opposite directions; the separation of these charges creates an electric current.

One problem with using this method is that the silicon crystals must be very pure and thickly coated in order to achieve a high photon capture rate and at the same time keep the two charges from combining and short-circuiting the system, which adds significantly to the production cost of this particular technology.

In contrast, Agrios says, “Dye-sensitized solar cells offer a radically different way to collect solar energy compared to silicon-based solar cells - a major advantage being that they are produced using less expensive materials.”

Dye-sensitized solar cells consist of nanoparticles of titanium dioxide, which are very small semiconductors that provide a relatively large surface area upon which photosensitive dye is applied. These dye molecules absorb visible light and inject photo electrons into the nanoparticles. The charge separation occurs between the dye, the semiconductors, and a liquid electrolyte in which the whole system is coated. Although this new method is somewhat less efficient, as the dye absorbs on average a narrower spectrum of light compared with its silicon counterparts, that is more than offset by reduced manufacturing cost.

Agrios’ current research focus is on boosting the efficiency of dye-sensitized solar cells by improving electron transport kinetics; he and his students are tackling this issue both by combining different semiconductors and by rerouting electrochemical reactions in order to circumvent certain energy loss processes.

These projects are aided by C2E2’s state-of-the-art equipment and a large number of research faculty engaged in energy research, some of whom are also engaged in work on nanoscale technologies.

“We’re targeting our research on what I see as the main choke point of the cell,” Agrios said about his current research focus. “Solving these problems will provide the breakthrough that will lead to the next generation of higher-efficiency and lower cost dye-sensitized .”

In addition to improving the efficiency of these new solar cell technologies, Agrios continues to stress the fundamental importance that energy research has for the field of environmental engineering.

He plans to develop graduate and undergraduate level courses that explore how nanoparticulate semiconductors can be used in pollution treatment, advanced energy conversion, and energy storage.

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