Biorenewable, Biodegradable Plastic Alternative Progress
Colorado State University polymer chemists have taken another step toward a future of high-performance, biorenewable, biodegradable plastics.
Publishing in Nature Communications, the team led by Professor of Chemistry Eugene Chen describes chemical synthesis of a polymer called bacterial poly(3-hydroxybutyrate) – or P3HB. The compound shows early promise as a substitute for petroleum plastics in major industrial uses.
P3HB is a biomaterial, typically produced by bacteria, algae and other microorganisms, and is used in some biomedical applications. Its high production costs and limited volumes render the material impractical in more widespread commodity applications, however.
The team, which includes the paper’s first author and research scientist Xiaoyan Tang, used a starting material called succinate, an ester form of succinic acid. This acid is produced via fermentation of glucose and is first on the U.S. Department of Energy’s list of top 12 biomass-derived compounds best positioned to replace petroleum-derived chemicals.
The researchers’ new chemical synthesis route produces P3HB that’s similar in performance to bacterial P3HB, but their route is faster and offers potential for larger-scale, cost-effective production for commodity plastic applications. This new route is enabled by a class of powerful new catalysts they have designed and synthesized. They have filed a provisional patent through CSU Ventures for the new technology.
This article has been republished from materials provided by Colorado State University. Note: material may have been edited for length and content. For further information, please contact the cited source.
Chemical synthesis of perfectly isotactic and high melting bacterial poly(3-hydroxybutyrate) from bio-sourced racemic cyclic diolide. Xiaoyan Tang & Eugene Y.-X. Chen. Nature Communicationsvolume 9, Article number: 2345 (2018), https://doi.org/10.1038/s41467-018-04734-3.
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