Highly Selective Asymmetric Hydrogenation Using a Three Hindered Quadrant Bisphosphine Rhodium Catalyst

Highly Selective Asymmetric Hydrogenation Using a Three Hindered Quadrant Bisphosphine Rhodium Catalyst

A concise synthesis of both enantiomers of ligand 2 and rhodium complex 5 is presented. The crux of the synthesis is a chiral HPLC separation of the enantiomers of 4. Rhodium complex 5 possesses three hindered quadrants in the steric environment within which a substrate binds. Evidence is presented...

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Veröffentlicht in:Journal of the American Chemical Society 2004-05, Vol.126 (19), p.5966-5967
Hauptverfasser: Hoge, Garrett, Wu, He-Ping, Kissel, William S, Pflum, Derek A, Greene, Derek J, Bao, Jian
Format: Artikel
Sprache:eng
Schlagworte:
Chemical reactivity
Chemistry
Exact sciences and technology
Organic chemistry
Reactivity and mechanisms
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Zusammenfassung:A concise synthesis of both enantiomers of ligand 2 and rhodium complex 5 is presented. The crux of the synthesis is a chiral HPLC separation of the enantiomers of 4. Rhodium complex 5 possesses three hindered quadrants in the steric environment within which a substrate binds. Evidence is presented that this configuration leads to high enantioselectivity (>99% ee) for rhodium-catalyzed asymmetric hydrogenation of α-acetamido dehydroamino acids, 6a − e. High enantioselectivities are also reported for the hydrogenation of a substrate precursor, 8, of pharmaceutical candidate, pregabalin. Advantages for large-scale hydrogenation of 8 using catalyst 5a vs Rh-Me-DuPhos are discussed.
ISSN:0002-7863
1520-5126
DOI:10.1021/ja048496y