Selective Reduction of Secondary Amides to Imines Catalysed by Schwartz's Reagent

Liam J. Donnelly; Jean‐Claude Berthet; Thibault Cantat

doi:10.1002/anie.202206170

Selective Reduction of Secondary Amides to Imines Catalysed by Schwartz's Reagent

Liam J. Donnelly, Jean‐Claude Berthet, Thibault Cantat

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31 Citations (Scopus)

Abstract

The partial reduction of amides is a challenging transformation that must overcome the intrinsic stability of the amide bond and exhibit high chemoselective control to avoid overreduction to amine products. To address this challenge, we describe a zirconium-catalysed synthesis of imines by the reductive deoxygenation of secondary amides. This reaction exploits the excellent chemoselectivity of Schwartz's reagent (Cp2Zr(H)Cl) and utilises (EtO)3SiH as a mild stoichiometric reductant to enable catalyst turnover. The reaction generally proceeds with high yields (19 examples, 51 to 95 % yield) and tolerates a variety of functional groups (alkene, ester, nitro, etc.). Stoichiometric mechanistic investigations suggest the regeneration of the active [Zr]−H catalyst is achieved through the metathesis of Si−H and Zr−OR σ-bonds.

Original language	English
Article number	e202206170
Journal	Angewandte Chemie International Edition
Volume	61
Issue number	33
DOIs	https://doi.org/10.1002/anie.202206170
Publication status	Published - 15 Aug 2022

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title = "Selective Reduction of Secondary Amides to Imines Catalysed by Schwartz's Reagent",

abstract = "The partial reduction of amides is a challenging transformation that must overcome the intrinsic stability of the amide bond and exhibit high chemoselective control to avoid overreduction to amine products. To address this challenge, we describe a zirconium-catalysed synthesis of imines by the reductive deoxygenation of secondary amides. This reaction exploits the excellent chemoselectivity of Schwartz's reagent (Cp2Zr(H)Cl) and utilises (EtO)3SiH as a mild stoichiometric reductant to enable catalyst turnover. The reaction generally proceeds with high yields (19 examples, 51 to 95 \% yield) and tolerates a variety of functional groups (alkene, ester, nitro, etc.). Stoichiometric mechanistic investigations suggest the regeneration of the active [Zr]−H catalyst is achieved through the metathesis of Si−H and Zr−OR σ-bonds.",

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T1 - Selective Reduction of Secondary Amides to Imines Catalysed by Schwartz's Reagent

AU - Donnelly, Liam J.

AU - Berthet, Jean‐Claude

AU - Cantat, Thibault

PY - 2022/8/15

Y1 - 2022/8/15

N2 - The partial reduction of amides is a challenging transformation that must overcome the intrinsic stability of the amide bond and exhibit high chemoselective control to avoid overreduction to amine products. To address this challenge, we describe a zirconium-catalysed synthesis of imines by the reductive deoxygenation of secondary amides. This reaction exploits the excellent chemoselectivity of Schwartz's reagent (Cp2Zr(H)Cl) and utilises (EtO)3SiH as a mild stoichiometric reductant to enable catalyst turnover. The reaction generally proceeds with high yields (19 examples, 51 to 95 % yield) and tolerates a variety of functional groups (alkene, ester, nitro, etc.). Stoichiometric mechanistic investigations suggest the regeneration of the active [Zr]−H catalyst is achieved through the metathesis of Si−H and Zr−OR σ-bonds.

AB - The partial reduction of amides is a challenging transformation that must overcome the intrinsic stability of the amide bond and exhibit high chemoselective control to avoid overreduction to amine products. To address this challenge, we describe a zirconium-catalysed synthesis of imines by the reductive deoxygenation of secondary amides. This reaction exploits the excellent chemoselectivity of Schwartz's reagent (Cp2Zr(H)Cl) and utilises (EtO)3SiH as a mild stoichiometric reductant to enable catalyst turnover. The reaction generally proceeds with high yields (19 examples, 51 to 95 % yield) and tolerates a variety of functional groups (alkene, ester, nitro, etc.). Stoichiometric mechanistic investigations suggest the regeneration of the active [Zr]−H catalyst is achieved through the metathesis of Si−H and Zr−OR σ-bonds.

UR - https://www.scopus.com/pages/publications/85131832652

U2 - 10.1002/anie.202206170

DO - 10.1002/anie.202206170

M3 - Article

SN - 1433-7851

VL - 61

JO - Angewandte Chemie International Edition

JF - Angewandte Chemie International Edition

IS - 33

M1 - e202206170

ER -

Selective Reduction of Secondary Amides to Imines Catalysed by Schwartz's Reagent

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