Chemistry professor developing sustainable bioplasticsJanuary 19, 2012 By Emily Narvaes Wilmsen in Chemistry / Materials Science
(PhysOrg.com) -- A Colorado State University chemistry professor has developed several patent-pending chemical processes that would create sustainable bioplastics from renewable resources for use on everything from optical fibers and contact lenses to furniture and automobile parts.
Chemistry Professor Eugene Chen and his co-workers have invented a platform of processes to convert small molecules derived from nonedible plant biomass to bioplastics. The molecules can be transformed into different materials depending on the catalyst that is added to them. That catalyst can either be an organic compound or a metal-based compound.
Officials with CSU Ventures, the universitys technology transfer arm, are optimistic about the commercial potential of this work and have filed several provisional patent applications on Chens processes. Two related studies were published last year and this month, both in Angewandte Chemie International Edition.
Each year, the U.S. alone manufactures almost 90 billion pounds of synthetic plastics derived predominantly from fossil fuels, which are not renewable, Chen said. Theres a great deal of concern to develop sustainable polymers or materials that can displace those petrochemical polymers. Theres huge interest in academia and industry, so the largest companies such as Dow Chemical, Dupont and BASF are pursuing sustainable chemical feedstocks to make materials.
The organic process Chen created could be used to produce commodity plastics for everyday uses such as artificial glass, dental resins, automobile parts and furniture. His metal-based process would be used to produce high-performance engineering plastic materials that have superb mechanical and physical properties.
Chen has found in his laboratory that commercially available organic catalysts applied to small molecules derived from plant biomass are very active and efficient the reaction achieves completion within a minute and non-toxic. He also has developed a metal-based catalyst system that produces stereoregular polymers that exhibit superior physical and mechanical properties, meaning theyre very robust and more resistant to such factors as temperature, liquids, chemicals and scratches.
Plastic optical fibers, for example, must sustain exposure to the elements and still perform at a high level so they dont interrupt telecommunications service.
These materials require high resistance to extreme conditions including high temperature and unexpected environmental invasion, Chen said.
Chen has done previous research showing that dissolving plant biomass in green solvent ionic liquids - salts that melt at low temperatures - converts more sugars needed for biofuel more quickly than traditional methods. The discovery was an important step in the move toward the use of nonedible plant biomass as an alternative source for fuel. Most recently, Chens lab has filed a provisional patent for a new catalytic process in ionic liquids to convert plant biomass to platform chemicals.
Chen joined Colorado State in 2000 from Dow Chemical where he researched production of petroleum-based polyolefin plastics. His current research has been supported by grants from the National Science Foundation and the U.S. Department of Energy.
Yuetao Zhang, a research scientist; Yangjian Hu, a postdoctoral fellow; and Garret Miyake, a graduate student, all work with Chen and contribute to the research.
Provided by Colorado State University
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