Imines asymmetric homogeneous hydrogenation

There are some reports on the asymmetric catalytic hydrogenation of C=N double bonds. Rhodium phosphine complexes do not have high activity, and the stereoselectivity is low. - Homogeneous hydrogenation of oximes, Schiff s bases and cyclic imines " have been reported. A cyano cobalt complex has been used for the homogeneous catalytic hydrogenation of oximes and Schiff s bases but the degree of asymmetric induction is unknown. 

Scheme 9.20 illustrates the last key steps in the synthesis of (S)-metolachlor. Early on, researchers at Novartis turned their attention to creating conditions for an asymmetric, homogeneous, metal-catalyzed hydrogenation of imine 83 to... 

Asymmetric Transfer Hydrogenation of Ketones. The first reports on asymmetric transfer hydrogenation (ATH) reactions catalyzed by chiral metallic compounds were published at the end of the seventies. Prochiral ketones were reduced using alcohols as the hydrogen source, and Ru (274,275) or Ir (276) complexes were used as catalysts. Since then, many chiral catalytic systems for homogeneous ATH of ketones, imines, and olefins have been developed (37,38,256,257,277-289). The catalytic systems are usually based on ruthenium, rhodium, or iridium, and the ATH of aryl ketones is by far the most studied. Because of the reversibility of this reaction, at high conversions, a gradual erosion of the ee of the product has been frequently reported. An azeotropic 5 2 mixture of formic acid/triethylamine can be used to overcome this limitation. 

The current research areas with ruthenium chemistry include the effective asymmetric hydrogenation of other substrates such as imines and epoxides, the synthesis of more chemoselective and enantioselective catalysts, COz hydrogenation and utilization, new methods for recovering and recycling homogeneous catalysts, new solvent systems, catalysis in two or three phases, and the replace-... 

A spectacular, site-isolation effect in heterogeneous asymmetric catalysis was first reported by Pugin et al. The asymmetric hydrogenation of imine 1 is important for the commercial production of fS -metolachlor, a herbicide presently produced at >10000 tons per year. In this reaction, whereas homogeneous Ir-BPPM (2) catalyst prepared with [Ir(COD)Cl]2 was deactivated after 26% conversion (turnover frequency (TOP) min = 0), the covalently immobilized Ir catalysts, Si-PPM (3)-Ir, were much more active and productive (TOP min = up to 5.1 Scheme 2.1)... 

Ligands for Iron-based Homogeneous Catalysts for the Asymmetric Hydrogenation of Ketones and Imines... 

From a historical perspective, the Monsanto process for the preparation of (l.)-DOPA in 1974 laid the foundation stone for industrial enantioselective catalysis. Since then it has been joined by a number of other asymmetric methods, such as enantioselective Sharpless epoxidation (glycidol (ARCO) and disparlure (Baker)), and cyclopropanation (cilastatin (Merck, Sumitomo) and pyre-throids (Sumitomo)). Nevertheless, besides the enantioselective hydrogenation of an imine for the production of (S)-metolachlor(a herbicide from Syngenta), the Takasago process for the production of (-)-menthol remains since 1984 as the largest worldwide industrial application of homogeneous asymmetric catalysis. [124]... 

The particular features of phosphonium salts were exploited for a number of synthetic applications in 2014. Phosphonium chloride salts found applications as chlorine source and as modifiers for homogeneous catalyst systems. As an example, Muller, Rosenthal and co-workers reported the study of a chromium-based catalyst for the selective tri-merization of ethylene. A phosphonium precursor of the type i cyclo-(PR2CH2CH(OH) )2][Br]2) was used for the preparation of iron(n) complexes containing unsymmetrical P-N-P pincer ligands (Scheme 5). The group of Prof. Morris tested these compounds as catalysts for the asymmetric hydrogenation of ketones and imines. ... 

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