Dow Corning, U Toledo collaborate on solar R-and-D

Dow Corning and The University of Toledo signed an MOU to collaborate on solar R&D efforts. Their researchers will work together to help reduce the cost of solar energy to make it a viable and economically competitive energy option globally.

(July 19, 2010) — Dow Corning and The University of Toledo (UT) signed a memorandum of understanding (MOU) to collaborate on photovoltaic (PV or solar) research and development (R&D) efforts. Their researchers will work together to help reduce the cost of solar energy to make it a viable and economically competitive energy option globally.

The collaboration between Dow Corning and UT, which could include the addition of other universities or businesses in the future, offers researchers from both organizations the opportunity to share data and technology while allowing both to protect their intellectual property.

The UT has a long history of thin-film photovoltaic research and commercialization. Faculty members from various departments at UT have been actively involved in research and development of PV materials, devices, and manufacturing for more than 25 years. UT leads the Wright Center for Photovoltaics Innovation and Commercialization, a world-class science and technology platform established by the state of Ohio to further the research and applications of clean electricity generation.

Dow Corning’s silicon-based materials are used in solar cell manufacturing, solar module assembly and installation. In the past five years, Dow Corning and its joint ventures, the Hemlock Semiconductor Group, have announced investments of more than $5 billion to research and develop as well as to expand production of materials critical to the solar industry.

Dow Corning currently has two Solar Solutions Application Centers in the United States, with similar facilities under construction in Europe and Korea.  These facilities enable Dow Corning engineers and scientists to work closely with customers to research, develop, evaluate and test silicon-based materials solutions for use in solar cells and modules.

“Both Dow Corning and UT want homes and businesses throughout the world to take advantage of clean, renewable energy from the sun,” said Gregg Zank, senior vice president and chief technology officer of Dow Corning. “It is essential that businesses, academics and the government collaborate to accelerate the advancement of solar technologies.”

“UT is committed to bringing technology developed in its laboratories to the marketplace,” said Frank Calzonetti, UT vice president for research and economic development. “An equal collaboration with global solar energy leader Dow Corning provides an excellent pathway for our research and technology to provide solutions to a world hungry for clean and renewable solar energy. This relationship not only demonstrates the value of collaborative partnerships to advance research and regional economic development, but sends a powerful message that the states of Ohio and Michigan are willing to work together to advance our positions in solar energy research, manufacturing, and implementation.” Both Dow Corning and UT have been active in engaging U.S. policymakers to support alternative energy growth in the U.S. 

The Wright Center for Photovoltaics Innovation and Commercialization (PVIC – was established in 2007 with an $18.7 million award from the State of Ohio’s Third Frontier program. PVIC — which is built on existing expertise in Ohio on photovoltaic, glass, metal forming, polymer technology, and high-volume manufacturing — is a joint effort with UT, Bowling Green State University, the Ohio State University and more than 35 other organizations.  PVIC’s mission is to research, develop, and commercialize new photovoltaic solutions, and to accelerate the deployment of photovoltaic electricity solutions for Ohio, the country, and the world.  PVIC is also supporting the development of related academic programs to educate the next-generation workforce.

Dow Corning ( provides performance-enhancing solutions to serve diverse markets.

Previous articleSolarfun To Increase Cell Production Capacity
Next articleNew Energy in the World

No posts to display