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Results: 1-10 |
Results: 10
A high-throughput-screening method for the identification of active and enantioselective hydrolases
Authors: Baumann, M Sturmer, R Bornscheuer, UT
Citation: M. Baumann et al., A high-throughput-screening method for the identification of active and enantioselective hydrolases, ANGEW CHEM, 40(22), 2001, pp. 4201-4204
A short and efficient synthesis of (S)-1-Boc-2,5-dihydro-1H-pyrrole-2-carboxylic acid
Authors: Sturmer, R Schafer, B Wolfart, V Stahr, H Kazmaier, U Helmchen, G
Citation: R. Sturmer et al., A short and efficient synthesis of (S)-1-Boc-2,5-dihydro-1H-pyrrole-2-carboxylic acid, SYNTHESIS-S, (1), 2001, pp. 46-48
Optically active titanium complexes containing a tridentate linked amido-cyclopentadienyl ligand
Authors: Okuda, J Verch, S Sturmer, R Spaniol, TP
Citation: J. Okuda et al., Optically active titanium complexes containing a tridentate linked amido-cyclopentadienyl ligand, CHIRALITY, 12(5-6), 2000, pp. 472-475
Optically active transition-metal complexes. 10. Bifunctional arene-chromium-tricarbonyl complexes derived from (R)-phenylethanamine: Easily accessible planar-chiral diphosphines and their application in enantioselective hydrogenation, hydroamination, and allylic sulfonation
Authors: Vasen, D Salzer, A Gerhards, F Gais, HJ Sturmer, R Bieler, NH Togni, A
Citation: D. Vasen et al., Optically active transition-metal complexes. 10. Bifunctional arene-chromium-tricarbonyl complexes derived from (R)-phenylethanamine: Easily accessible planar-chiral diphosphines and their application in enantioselective hydrogenation, hydroamination, and allylic sulfonation, ORGANOMETAL, 19(4), 2000, pp. 539-546
Chiral complexes of titanium containing a linked amido-cyclopentadienyl ligand: synthesis, structure, and asymmetric imine hydrogenation catalysis
Authors: Okuda, J Verch, S Sturmer, R Spaniol, TP
Citation: J. Okuda et al., Chiral complexes of titanium containing a linked amido-cyclopentadienyl ligand: synthesis, structure, and asymmetric imine hydrogenation catalysis, J ORGMET CH, 605(1), 2000, pp. 55-67
Take the right catalyst: Palladium-catalyzed C-C, C-N, and C-O bond formation on chloroarenes
Authors: Sturmer, R
Citation: R. Sturmer, Take the right catalyst: Palladium-catalyzed C-C, C-N, and C-O bond formation on chloroarenes, ANGEW CHEM, 38(22), 1999, pp. 3307-3308
Synthesis of the first water-soluble chiral tetrahydroxy diphosphine Rh(I)catalyst for enantioselective hydrogenation
Authors: Holz, J Heller, D Sturmer, R Borner, A
Citation: J. Holz et al., Synthesis of the first water-soluble chiral tetrahydroxy diphosphine Rh(I)catalyst for enantioselective hydrogenation, TETRAHEDR L, 40(39), 1999, pp. 7059-7062
The development of enzymes for the preparation of chemicals
Authors: Hauer, B Breuer, M Ditrich, K Matuschek, M Ress-Loschke, M Sturmer, R
Citation: B. Hauer et al., The development of enzymes for the preparation of chemicals, CHIMIA, 53(12), 1999, pp. 613-616
Asymmetric thermal transformation, a new way to enantiopure biphenyl-bridged titanocene and zirconocene complexes: Efficient catalysts for asymmetricimine hydrogenation
Authors: Ringwald, M Sturmer, R Brintzinger, HH
Citation: M. Ringwald et al., Asymmetric thermal transformation, a new way to enantiopure biphenyl-bridged titanocene and zirconocene complexes: Efficient catalysts for asymmetricimine hydrogenation, J AM CHEM S, 121(7), 1999, pp. 1524-1527
Asymmetric thermal transformation, a new way to enantiopure biphenyl-bridged titanocene and zirconocene complexes: Efficient catalysts for asymmetricimine hydrogenation (vol 121, pg 1524, 1999)
Authors: Ringwald, M Sturmer, R Brintzinger, HH
Citation: M. Ringwald et al., Asymmetric thermal transformation, a new way to enantiopure biphenyl-bridged titanocene and zirconocene complexes: Efficient catalysts for asymmetricimine hydrogenation (vol 121, pg 1524, 1999), J AM CHEM S, 121(31), 1999, pp. 7278-7278
Risultati: 1-10 |