Dihydrophenanthridine: A New and Easily Regenerable NAD(P)H Model for Biomimetic Asymmetric Hydrogenation

Qing‐An Chen; Kai Gao; Ying Duan; Zhishi Ye; Lei Shi; Yan Yang; Yong‐Gui Zhou

doi:10.1021/ja211684v

Dihydrophenanthridine: A New and Easily Regenerable NAD(P)H Model for Biomimetic Asymmetric Hydrogenation

Qing‐An Chen(Chinese Academy of Sciences), Kai Gao(Dalian Institute of Chemical Physics), Ying Duan(Chinese Academy of Sciences), Zhishi Ye(Dalian Institute of Chemical Physics), Lei Shi(Chinese Academy of Sciences), Yan Yang(Chinese Academy of Sciences), Yong‐Gui Zhou(Chinese Academy of Sciences)

Journal of the American Chemical Society

January 4, 2012

10.1021/ja211684v

Cited by 266

Abstract

A new and easily regenerable NAD(P)H model 9,10-dihydrophenanthridine (DHPD) has been designed for biomimetic asymmetric hydrogenation of imines and aromatic compounds. This reaction features the use of hydrogen gas as terminal reductant for the regeneration of the DHPD under the mild condition. Therefore, the substrate scope is not limited in benzoxazinones; the biomimetic asymmetric hydrogenation of benzoxazines, quinoxalines, and quinolines also gives excellent activities and enantioselectivities. Meanwhile, an unexpected reversal of enantioselectivity was observed between the reactions promoted by the different NAD(P)H models, which is ascribed to the different hydride transfer pathway.

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