Enzymatic resolution of (R, S)-Naproxen in water-saturated ionic liquid

Abstract

A water-saturated ionic liquid has been exploited for resolution of (R, S)-Naproxen by lipase-catalyzed hydrolysis to enhance the conversion and facilitate product recovery. From the enantioselectivity and activity of lipase, water-saturated [bmim]PF6 (1-butyl-3-methylimidazolium hexafluorophosphate) was selected as the best reaction medium. To prevent the dissolution of lipase in the ionic liquid, a weakly polar, amorphous multiporous silica YWG-C6H5 was used as a support for immobilization. The production of (S)-Naproxen was initially performed in a batch reactor containing 20 mL of substrate solution. After 72 h reaction, 98.2% enantiomeric excess of the (S)-Naproxen was obtained with 28.3% hydrolysis conversion. The unconventional solvent properties of ionic liquids have been exploited in reaction medium recycling, product recovery and water recruiting schemes. In a repetitive batch reaction system, the immobilized lipase could be repeatedly used for 5 times with only a slight reduction in reaction conversion.