Amino alcohol coordination in ruthenium(II)-catalysed asymmetric transfer hydrogenation of ketones

The nature of ruthenium-amino alcohol precursors in the catalytic cycle of asymmetric hydrogen transfer reactions was studied using two C-2-symmetrica l tetradentate ligands (1 and 2) that were synthesised from (nor)ephedrine. The structure of the catalyst precursor was examined through catalysis and NMR experiments. It was shown that the active catalyst contains one ligand per metal, which coordinates in a didentate N,O fashion (9). In addition, a (RuCl2)-Cl-II complex, in which N,N'-bis(2-hydroxy-1-methyl-2-phenylethyl )-1,2-di-aminoethane (1) coordinates through two nitrogen atoms, was struct urally characterised by X-ray diffraction (8). - Based on the results of th is study a series of new amino alcohol ligands was synthesised from easily available starting materials. Optimisation of the amino alcohol ligand stru cture resulted in the most effective chiral amino alcohol Ligand (5) so far that is capable of reducing acetophenone at 0 degrees C with up to 97% ee in the Ru-II-catalysed transfer hydrogenation.