铜催化的芳基炔烃的形式转移氢化/氘化反应。

Copper-Catalyzed Formal Transfer Hydrogenation/Deuteration of Aryl Alkynes.

机构信息

Department of Chemistry, Marquette University, Milwaukee, Wisconsin 53233-1881 United States.

出版信息

Org Lett. 2020 Nov 20;22(22):9139-9144. doi: 10.1021/acs.orglett.0c03632. Epub 2020 Nov 10.

DOI:10.1021/acs.orglett.0c03632

Abstract

A copper-catalyzed reduction of alkynes to alkanes and deuterated alkanes is described under transfer hydrogenation and transfer deuteration conditions. Commercially available alcohols and silanes are used interchangeably with their deuterated analogues as the hydrogen or deuterium sources. Transfer deuteration of terminal and internal aryl alkynes occurs with high levels of deuterium incorporation. Alkyne-containing complex natural product analogues undergo transfer hydrogenation and transfer deuteration selectively, in high yield. Mechanistic experiments support the reaction occurring through a -alkene intermediate and demonstrate the possibility for a regioselective alkyne transfer hydrodeuteration reaction.

摘要

描述了在转移氢化和转移氘化条件下，炔烃还原为烷烃和氘代烷烃的铜催化反应。商业上可用的醇和硅烷可与它们的氘代类似物互换使用，作为氢或氘源。末端和内部芳基炔烃的转移氘化反应具有较高的氘掺入水平。含炔的复杂天然产物类似物以高产率选择性地进行转移氢化和转移氘化。机理实验支持通过 -烯烃中间体进行反应，并证明了区域选择性炔烃转移加氢氘化反应的可能性。

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铜催化的芳基炔烃的形式转移氢化/氘化反应。

Copper-Catalyzed Formal Transfer Hydrogenation/Deuteration of Aryl Alkynes.

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