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Arkansas Researchers To Lead Solar Project To Fuel NASA Space Missions

NASA

Two University of Arkansas researchers working on a promising new material to create more efficient solar cells will lead a corps of Arkansas scientists chosen to develop the next generation of photovoltaic devices used in space missions, the university announced on Thursday.

Shui-Qing “Fisher” Yu, associate professor of electrical engineering, will serve as principal scientific investigator on the multi-institutional project. The team will develop photovoltaic devices made of silicon-germanium-tin, a powerful semiconductor that has been proven to increase efficiency in electronic devices that source, detect and control light.

The project is funded by a $750,000 NASA/EPSCoR grant to the Arkansas Space Grant Consortium Office at the University of Arkansas at Little Rock. EPSCoR — Experimental Program to Stimulate Competitive Research — is a funding program to increase state participation in competitive aerospace-related research activities.

“We are excited that our material research has been recognized by NASA,” Yu said. “Now we have the opportunity to move forward developing a high-performance solar cell for space applications.”

Yu will collaborate with Hameed Naseem, professor of electrical engineering; Mansour Mortazavi, physics professor at the University of Arkansas at Pine Bluff; and Allan Thomas, physics professor at the University of Arkansas at Little Rock. Yu, Naseem and Mortazavi previously received a $725,000 grant from the U.S. Air Force Office of Scientific Research to work on similar technology.

For the NASA project, the researchers will capitalize on their pioneering work with silicon-germanium-tin, a new semiconductor material, to develop photovoltaic devices that can be integrated into existing solar cells to achieve a more efficient, optimal energy yield. Current, “triple junction” photovoltaic technology used by NASA has reached its efficiency limit. The new material is intended to boost performance, helping NASA achieve its 15-year, 45% efficiency goal for solar devices. The new material should also lower the cost of manufacturing and make the devices more radiation tolerant.

Related to this research, Yu has also received a $96,455 grant from the U.S. Army Research Office to upgrade equipment used to characterize silicon-germanium-tin-based devices.

This story comes from the staff of Talk Business & Politics, a content partner with KUAR News. You can hear the weekly program on Mondays at 6:06 p.m.