Enantioselective borodeuteride reduction of aldimines catalyzed by cobalt complexes: Preparation of optically active deuterated primary amines

Daichi Miyazaki; Kohei Nomura; Tatsuya Yamashita; Izumi Iwakura; Taketo Ikeno; Tohru Yamada

doi:10.1021/ol0349920

Enantioselective borodeuteride reduction of aldimines catalyzed by cobalt complexes: Preparation of optically active deuterated primary amines

Daichi Miyazaki, Kohei Nomura, Tatsuya Yamashita, Izumi Iwakura, Taketo Ikeno, Tohru Yamada

Department of Chemistry

Research output: Contribution to journal › Article › peer-review

27 Citations (Scopus)

Abstract

[Equation presented] The enantioselective borodeuteride reduction catalyzed by optically active β-ketoiminato cobalt complexes was applied to N-(di(o-tolyl)phosphinyl)-aldimines to afford the corresponding optically active deuterated primary amines in high yields with high enantiomeric excesses after simple deprotection. The present deuteride reduction of aldimines is in the opposite sense of the enantioselective for the previously reported borohydride reduction of ketones or diphenylphosphinyl aldimines. The stereochemical course in these enantioselective reductions is discussed.

Original language	English
Pages (from-to)	3555-3558
Number of pages	4
Journal	Organic Letters
Volume	5
Issue number	20
DOIs	https://doi.org/10.1021/ol0349920
Publication status	Published - 2003 Oct 2

ASJC Scopus subject areas

Biochemistry
Physical and Theoretical Chemistry
Organic Chemistry

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title = "Enantioselective borodeuteride reduction of aldimines catalyzed by cobalt complexes: Preparation of optically active deuterated primary amines",

abstract = "[Equation presented] The enantioselective borodeuteride reduction catalyzed by optically active β-ketoiminato cobalt complexes was applied to N-(di(o-tolyl)phosphinyl)-aldimines to afford the corresponding optically active deuterated primary amines in high yields with high enantiomeric excesses after simple deprotection. The present deuteride reduction of aldimines is in the opposite sense of the enantioselective for the previously reported borohydride reduction of ketones or diphenylphosphinyl aldimines. The stereochemical course in these enantioselective reductions is discussed.",

author = "Daichi Miyazaki and Kohei Nomura and Tatsuya Yamashita and Izumi Iwakura and Taketo Ikeno and Tohru Yamada",

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T1 - Enantioselective borodeuteride reduction of aldimines catalyzed by cobalt complexes

T2 - Preparation of optically active deuterated primary amines

AU - Miyazaki, Daichi

AU - Nomura, Kohei

AU - Yamashita, Tatsuya

AU - Iwakura, Izumi

AU - Ikeno, Taketo

AU - Yamada, Tohru

PY - 2003/10/2

Y1 - 2003/10/2

N2 - [Equation presented] The enantioselective borodeuteride reduction catalyzed by optically active β-ketoiminato cobalt complexes was applied to N-(di(o-tolyl)phosphinyl)-aldimines to afford the corresponding optically active deuterated primary amines in high yields with high enantiomeric excesses after simple deprotection. The present deuteride reduction of aldimines is in the opposite sense of the enantioselective for the previously reported borohydride reduction of ketones or diphenylphosphinyl aldimines. The stereochemical course in these enantioselective reductions is discussed.

AB - [Equation presented] The enantioselective borodeuteride reduction catalyzed by optically active β-ketoiminato cobalt complexes was applied to N-(di(o-tolyl)phosphinyl)-aldimines to afford the corresponding optically active deuterated primary amines in high yields with high enantiomeric excesses after simple deprotection. The present deuteride reduction of aldimines is in the opposite sense of the enantioselective for the previously reported borohydride reduction of ketones or diphenylphosphinyl aldimines. The stereochemical course in these enantioselective reductions is discussed.

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Enantioselective borodeuteride reduction of aldimines catalyzed by cobalt complexes: Preparation of optically active deuterated primary amines

Abstract

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