NEW YORK, Jan. 24, 2013 /PRNewswire/ -- Richard Gross, a professor of chemical and biomolecular engineering at the Polytechnic Institute of New York University (NYU-Poly), is deeply troubled by the fact that clean-energy technologies, meant to help preserve the planet, generally employ non-sustainable petroleum-based materials.
"The blades on a wind turbine, for example, are massive and need to be replaced about every 25 years," he explained. "They end up in landfills, like any other non-recyclable garbage. If they could be deconstructed by biological or chemical processes to recover chemicals that can be re-used, that would have an enormous positive impact on the environment. We could, in effect, 'green up' green energy."
To that end, the National Science Foundation (NSF) awarded Gross and his collaborators from seven other universities a grant to explore ways in which biological-based materials can be used in the manufacture of turbine blades, solar panels and other components for the clean-energy industry. Materials development and deployment is expected to take a minimum of 5 years.
In addition to the environmental benefits, as petroleum costs rise, there also may be economic advantages to using the biological-based polymers that Gross is developing. Because the new materials will be meticulously engineered, he expects their performance to be just as good—or even better—than those currently employed. "We believe that the precision by which nature designs molecules can be used to deliver better performance in both solar cells and wind turbine blades, where the organization of components is critical to device efficiency and material properties," he said.
The NSF recently awarded Gross and his collaborators a Partnerships for International Research and Education (PIRE) grant for a program dubbed RENEW (Renewable Energy NaturE's Way).
The PIRE awards focus on research projects that can be successful only with the collaboration of foreign partners and provide international research experiences for U.S. students and post-docs, as well as provide models to help universities become more international.
In addition to NYU-Poly, researchers hail from Case Western Reserve University, University of Pennsylvania, Rochester Institute of Technology, University of Sheffield in the United Kingdom, University of MONS in Belgium, University of Bologna in Italy and Santa Catarina State University in Brazil. They include not just materials scientists but mechanical engineers, chemists and others. In addition to revolutionizing the clean-energy industry, their work may eventually have utility in additional fields like auto manufacturing.
About Polytechnic Institute of New York University
Polytechnic Institute of New York University (formerly Polytechnic University), an affiliated institute of New York University, is a comprehensive school of engineering, applied sciences, technology and research, and is rooted in a 158-year tradition of invention, innovation and entrepreneurship: i2e. The institution, founded in 1854, is the nation's second-oldest private engineering school. In addition to its main campus in New York City at MetroTech Center in downtown Brooklyn, it also offers programs at sites throughout the region, around the globe and remotely through NYUe-Poly. NYU-Poly is an integral part of NYU Abu Dhabi, NYU Shanghai and the NYU Center for Urban Science and Progress (CUSP) in downtown Brooklyn. For more information, visit www.poly.edu.
SOURCE Polytechnic Institute of New York University