Efficient dynamic kinetic resolution of secondary alcohols with a novel tetrafluorosuccinato ruthenium complex

Dynamic kinetic resolution (DKR) of a series of secondary alcohols has been conducted with a novel dinuclear ruthenium complex, bearing tetrafluorosuccinate and (rac)-BINAP ligands as the racemization catalyst. Novozym 435 has been used as the enzyme, and isopropyl butyrate as the acyl donor. Five substrates underwent DKR successfully: an aliphatic and an aromatic secondary alcohol, an aromatic alcohol with an electron-withdrawing substituent on the phenyl ring, an aromatic alcohol bearing an electron-donating substituent on the ring and a heteroaromatic secondary alcohol. The catalyst performed optimally at 70 degrees C. Typically the reaction reached complete conversion within 1 day with 0.1 mol% of racemization catalyst relative to the substrate. The addition of the ketone corresponding to the substrate stabilizes the active Ru complex and, therefore, increases the rate of the reaction. (c) 2006 Published by Elsevier Ltd.