Open AccessOxidative Reactions with Nonaqueous Enzymes
Author(s) -
Jonathan S. Dordick,
Douglas S. Clark,
Brian H. Davison,
Alexander M. Klibanov
Publication year - 2001
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/793356
Subject(s) - alkene , polymerization , bioprocess , chemistry , oxidative phosphorylation , work (physics) , organic chemistry , combinatorial chemistry , biochemical engineering , catalysis , chemical engineering , biochemistry , polymer , engineering , mechanical engineering
The objective of this work is to demonstrate a proof-of-concept of enzymatic oxidative processing in nonaqueous media using alkene epoxidation and phenolic polymerization as relevant targets. This project will provide both the fundamental and applied investigations necessary to initiate the implementation of oxidative biocatalysts as commercially relevant alternatives to chemical processing in general, and to phenolic polymerizations and alkene epoxidation specifically. Thus, this work will address the Bioprocessing Solicitation Area to: (1) makes major improvements to phenolic polymerization and alkene epoxidation technologies; (2) is expected to be cost competitive with competing conventional processes; and (3) produces higher yields with less waste
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