Chiral memory effects in catalytic hydrogenations with dynamically chiral ligands

The low barrier for interconversion of chiral conformations of the dynamically chiral 2,2′-biphenyl ligand NMe₂C₆H₄C₆H₄PCy₂ is raised upon coordination. The individual enantiomers of the planar chiral arene-tethered complex Ru(η⁶:η¹- NMe₂C₆H₄C₆H₄PCy₂)Cl₂ (1), however, do not undergo racemization readily. A second source of chirality, such as a chiral diamine, can be included by conversion of 1 into a dicationic analogue Ru(η⁶:η¹-NMe₂C₆H₄C₆H₄PCy₂)((1S,2S)-DPEN)](SbF₆)₂ (2), which is a catalyst precursor for the hydrogenation of aryl ketones. Two epimers of 2, R_Ar,S,S and S_Ar,S,S, are formed when starting from racemic 1; this 1:1 mixture of diastereomers catalyzed the asymmetric hydrogenation of acetophenone. The enantiomerically pure diastereomers were obtained from resolved 1 and used separately to catalyze the reaction. Each diastereomer showed different selectivity, with S_Ar,S,S-2 being the more selective (61% ee for the hydrogenation of acetophenone). Our studies suggest that ruthenium hydride formation is accompanied by a decrease in hapticity of the η⁶-arene and probable detachment of the ring from the metal. Nevertheless, the original conformational chirality of the biphenyl ligand appears to be at least partially retained during the catalysis.