image: David Bocian is a professor of biophysical and materials chemistry at UC Riverside. view more
Credit: UCR Strategic Communications
RIVERSIDE, Calif. – David Bocian of the University of California, Riverside will receive more than $1 million over five years as a co-investigator in the Photosynthetic Antenna Research Center (PARC), to be headquartered at Washington University in St. Louis, Mo. The center seeks to better understand natural photosynthetic systems and design more durable human-made compounds for capturing light.
"Research on solar cells during the past 15 years has failed to appreciably increase cell efficiency," said Bocian, a professor of biophysical and materials chemistry, who researches energy conversion systems using a range of analytical techniques. Bocian cites lack of funding for basic research as the reason why today's solar cells have only 6-11 percent energy efficiency.
But there is hope in Congress's recent approval of funding for PARC and 45 similar Energy Frontier Research Centers (EFRCs) through the Department of Energy.
"The precedent in this case is the number of centers funded," Bocian said. "Normally the National Science Foundation calls for proposals and eventually funds three or four centers."
The $277 million allocated for the 46 EFRCs is significant, especially in that it requires no "deliverables" (functioning products) but rather seeks to address basic science questions.
Shiny silicon-wafer cells are extremely brittle, but Bocian explained that the new solar cells would be flexible, and could be integrated with textiles, allowing clothes to act as a walking power source for cell phones and computers.
He hopes to aid the development of what he calls "bio-inspired" antenna systems, which will collect and focus light to power solar cells.
These systems are bio-inspired because they are based on the dynamics of natural proteins. Nature "engineers" rings of light-harvesting complexes, each hosting a certain number of chlorophylls (photosynthetic light-absorbing pigments). Organisms simultaneously absorb light from different wavelength regions, significantly increasing their energy efficiency.
Bocian and his lab (funds will support at least one student and a post-doc each year for the next five years) use resonance Raman spectroscopy and other techniques to study chromophores, light-absorbing molecules. Resonance Raman spectroscopy, Bocian explained, allows his lab to study the vibrational resonance of individual molecules of interest.
Bocian noted that one advantage of the new cells is that they are more amenable to applications where today's solar cells cannot be used.
"Moreover, the main problem with today's solar cells is that they are not cost effective," he said, "and that's what we're hoping to change with this project."
The University of California, Riverside (www.ucr.edu) is a doctoral research university, a living laboratory for groundbreaking exploration of issues critical to Inland Southern California, the state and communities around the world. Reflecting California's diverse culture, UCR's enrollment of about 18,000 is expected to grow to 21,000 students by 2020. The campus is planning a medical school and has reached the heart of the Coachella Valley by way of the UCR Palm Desert Graduate Center. The campus has an annual statewide economic impact of more than $1 billion.
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