Alkane metathesis, a reaction catalyzed by the silica-supported tantalum hydride [(SiO)2Ta-H], 1, which transforms acyclic alkanes into their higher and lower homologues, was reported in 1997. New studies conducted in a continuous flow reactor in the case of propane indicate that, by varying the contact time, hydrogen and olefins are primary products. This crucial observation, as well as the known properties of tantalum alkyls to perform alpha-H or beta-H eliminations, supports the proposition of a new mechanism involving metallacyclobutane intermediates just like in olefin metathesis. The observed selectivities for linear and branched Cn+1 and Cn+2 products as well as the linear/branched ratio can be well-explained on the basis of the minimization of steric interactions between 1,2- or 1,3-substituents in the various tantallacyclobutane intermediates or during their formation. Hydrogen plays a specific role in the cleavage of metal alkyls to complete the catalytic cycle.
Monodentate phosphoramidites are excellent ligands for Rh-catalyzed asymmetric hydrogenations of substituted olefins. Enantioselectivities between 95 and 99% were obtained in the asymmetric hydrogenation of protected alpha- and beta-dehydroamino acids and esters, itaconic acid and esters, aromatic enamides, aromatic enol esters, aromatic and aliphatic enol carbamates, and alpha-substituted cinnamic acids. An iridium catalyst Ir(L*)(COD)Cl was developed that contains only a single bulky phosphoramidite based on 3,3'-disubstituted BINOL or bisphenol as a chiral ligand. With this catalyst, acetylated dehydroamino acid esters could be hydrogenated with very good enantioselectivity. Most reactions have turnover frequencies of 250-1600 h (-1), depending upon the hydrogen pressure. The enantioselectivity is unaffected by the pressure over a wide range. Because of their modularity and easy synthesis, parallel ligand synthesis is possible. Results obtained with these library ligands deviate only slightly from those obtained with purified ligands. Using this instant ligand library protocol, DSM has developed catalysts for industrial processes. These MonoPhos ligands are currently used in production for pharmaceutical intermediates by DSM. It is possible to use catalysts based on a mixture of two different monodentate ligands, such as two different monodentate phosphoramidites or one phosphoramidite and one achiral phosphine ligand. Dependent upon the substrate, the "mixed" catalyst may lead to higher enantioselectivity and rate than the "homocatalysts".
Catalytic hydrogenation of carboxylic acid esters is essential for the green production of pharmaceuticals, fragrances, and fine chemicals. Herein, we report the efficient hydrogenation of esters with manganese catalysts based on simple bidentate aminophosphine ligands. Monoligated Mn PN complexes are particularly active for the conversion of esters into the corresponding alcohols at Mn concentrations as low as 0.2 mol % in the presence of sub‐stoichiometric amounts of KOtBu base.
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