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Abstract
Biocatalytic tools for both end-of-the-pipe solutions and direct reaction methodology have been developed for the improvement of practical oxidations. The identification of bottlenecks and limitations in biocatalytic Baeyer-Villiger oxidations, and the comparison of scalable process designs to overcome these limitations, have shown the direction for improvements. The first kilogram-scale asymmetric microbial Baeyer-Villiger oxidation with optimized productivity has been realized by the combination of a resin-based in-situ SFPR strategy together with micro-bubble aeration. Regioselective asymmetric dihydroxylation of aromatic nitriles has been achieved by recombinant chlorobenzenedioxygenase. The introduction of novel biocatalytic tools for key catalytic asymmetric transformations will change chemical manufacturing in the 21st century.