A new class of chiral Cz-symmetric bis(phospho1ane) ligands has been prepared and used in rhodium-catalyzed asymmetric hydrogenation reactions. We describe a practical, one-pot procedure which utilizes enantiomerically pure 1,4-diol cyclic sulfates 4 for the preparation of a homochiral series of 1,2-bis(phospholano)ethanes 1 and 1,2-bis-(phospho1ano)benzenes (DuPHOS) 2. Cationic rhodium complexes bearing these new ligands behave as very efficient catalyst precursors for the asymmetric hydrogenation of a broad range of a-(N-acy1amino)acrylate (enamide) substrates 5. Significantly, a variety of unnatural and nonproteinaceous a-amino acid derivatives 6 were obtained directly with enantioselectivities approaching 100% ee when using the DuPHOS ligands 2. Substrate-to-catalyst ratios of 10 000 were routinely used, and ratios as high as 50 000 were demonstrated in these reactions. Details of the DuPHOS-Rh-catalyzed hydrogenations are discussed.Asymmetric phosphine ligands have played a dominant role in the development of novel transition-metal-catalyzed enantioselective syntheses.' Notwithstanding the high selectivities observed in certain applications using some of the more successful asymmetric phosphines such as DIPAMP,Z CHIRAPHOS,3 and BINAP: there are many reactions of interest where catalysts bearing these phosphines perform rather poorly in terms of efficiency and enantioselectivity. Such failure indicates the need for alternative asymmetric ligands and/or catalysts.Toward this goal, our research has been focused on the design of new chiral ligands for use in transition-metal-based asymmetric catalysis. We recently outlined our approach and described the synthesis of new electron-rich Cz-symmetric bis(phospho1ane) and C3-symmetric tris(phospho1ane) ligands-' These studies indicated the potential utility of Cz-symmetric 1 ,2-bis(phospholano)ethane ligands of type 1. The reported ligand preparation, however, was inefficient for cases other than the dimethylsubstituted diphospholane (Le., la, R = Me). We herein report details of an improved synthetic procedure that allows facile preparation of the homochiral series of Cz-symmetric 1,2-bis-(phospho1ano)ethanes 1 (BPE, R = Me, Et, Pr, and i-Pr). The evolutionary nature of our ligand design subsequently led us to prepare the analogous homochiral series of 1 ,2-bis(phospholano)benzene ligands 2 (DuPHOS, R = Me, Et, Pr, and i-Pr).sWe have found that the new ligands 1 and 2 afford efficient catalysts for the highly enantioselective hydr0genation5-~ and t Present address: hydrosilylation1° of various unsaturated substrates. In particular, enantioselectivities approaching 100% ee have been observed in the Rh-catalyzed hydrogenation of a wide range of a-(N-acy1amino)acrylates. Importantly, the high efficiency, selectivity, and substrate generality exhibited by these catalysts provide a practical route to a variety of enantiomerically pure unnatural and nonproteinaceous a-amino acid derivatives. The details of these hydrogenation studies are described herein.
Results and Disc...
