Metal-catalyzed asymmetric oxidations mediated by optically pure furyl hydroperoxides

Metal-catalyzed asymmetric oxidations which rely on the use of commercially available t-butyl (TBHP) or cumyl hydroperoxides (CHP) and enantiopure ligands represent the majority of protocols reported to obtain enantiomerically enriched valuable compounds such as epoxides, sulfoxides, diols, etc. Herein, we review our recent results on the complementary and less studied oxidative approach based on the use of optically pure alkyl hydroperoxides as oxygen and chirality source. The synthetic sequence to enantiopure furyl hydroperoxides, easily accessible from ketones of the chiral pool is firstly described. Examples of metal-catalyzed asymmetric oxidations using these compounds for the production of enantiomerically enriched sulfoxides and epoxy alcohols are shown. The entire protocol is made more advantageous by recovering the optically pure alcohols during the purification procedure and recycling them for the one-step synthesis of the hydroperoxides.

Graphical abstractMetal-catalyzed asymmetric oxidations using optically pure furyl hydroperoxides as oxygen and chirality source are reviewed. The synthetic sequence to enantiopure furyl hydroperoxides, easily accessible from ketones of the chiral pool is firstly described. Examples of metal-catalyzed asymmetric oxidations using these compounds for the production of enantiomerically enriched sulfoxides and epoxy alcohols are shown.Figure optionsDownload full-size imageDownload as PowerPoint slide