A library of chiral supramolecular ligands named BenzaPhos, of straightforward preparation (two steps from commercial or readily available starting materials) and modular structure, was designed and synthesized. The ligands were screened in the search of new rhodium catalysts for the enantioselective hydrogenation of several benchmark and industrially relevant substrates. Once a series of hits were identified, structural modifications were introduced on three of the best ligands and a small second-generation library was created. Members of the latter showed outstanding levels of activity and enantioselectivity in the hydrogenation of challenging olefins such as enamide S4 and beta-dehydroamino ester S5 (> 99% ee: best value ever reported in both cases). A series of control experiments were undertaken in order to clarify the role of hydrogen bonding in determining the catalytic properties of the new ligands. The results of these experiments, together with those of computational studies carried out on four dihydride complexes involved in the catalytic hydrogenation of substrate S4, strongly suggest that a substrate orientation takes place in the catalytic cycle by formation of a hydrogen bond between the ligand amide oxygen and the substrate amide NH.
A Library Approach to the Development of BenzaPhos, Highly Efficient Chiral Supramolecular Ligands for Asymmetric Hydrogenation
PIARULLI, UMBERTO;
2012-01-01
Abstract
A library of chiral supramolecular ligands named BenzaPhos, of straightforward preparation (two steps from commercial or readily available starting materials) and modular structure, was designed and synthesized. The ligands were screened in the search of new rhodium catalysts for the enantioselective hydrogenation of several benchmark and industrially relevant substrates. Once a series of hits were identified, structural modifications were introduced on three of the best ligands and a small second-generation library was created. Members of the latter showed outstanding levels of activity and enantioselectivity in the hydrogenation of challenging olefins such as enamide S4 and beta-dehydroamino ester S5 (> 99% ee: best value ever reported in both cases). A series of control experiments were undertaken in order to clarify the role of hydrogen bonding in determining the catalytic properties of the new ligands. The results of these experiments, together with those of computational studies carried out on four dihydride complexes involved in the catalytic hydrogenation of substrate S4, strongly suggest that a substrate orientation takes place in the catalytic cycle by formation of a hydrogen bond between the ligand amide oxygen and the substrate amide NH.File | Dimensione | Formato | |
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