钯催化的苯芳基化反应：引入催化量的新戊酸作为质子穿梭体及催化剂设计中的关键要素。

Palladium-catalyzed benzene arylation: incorporation of catalytic pivalic acid as a proton shuttle and a key element in catalyst design.

作者信息

Lafrance Marc, Fagnou Keith

机构信息

Center for Catalysis Research and Innovation, University of Ottawa, Department of Chemistry, 10 Marie Curie, Ottawa, Ontario, Canada K1N 6N5.

出版信息

J Am Chem Soc. 2006 Dec 27;128(51):16496-7. doi: 10.1021/ja067144j.

DOI:10.1021/ja067144j

PMID:17177387

Abstract

A palladium-pivalic acid cocatalyst system has been developed that exhibits unprecedented reactivity in direct arylation. This reactivity is illustrated with the first examples of high yielding direct metalation-arylation reactions of a completely unactivated arene, benzene. Experimental and computational evidence indicates that the pivalate anion is a key component in the palladation/C-H bond breaking event, that it lowers the energy of C-H bond cleavage and acts as a catalytic proton shuttle from benzene to the stoichiometric carbonate base. Eight examples of substituted aryl bromides are included which undergo direct arylation with benzene in 55-85% yield.

摘要

已开发出一种钯-新戊酸共催化剂体系，该体系在直接芳基化反应中表现出前所未有的反应活性。完全未活化的芳烃苯的高产率直接金属化-芳基化反应的首个实例说明了这种反应活性。实验和计算证据表明，新戊酸根阴离子是钯化/C-H键断裂过程中的关键成分，它降低了C-H键裂解的能量，并作为催化质子从苯穿梭至化学计量的碳酸盐碱。文中包含八个取代芳基溴的实例，它们与苯发生直接芳基化反应，产率为55-85%。

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钯催化的苯芳基化反应：引入催化量的新戊酸作为质子穿梭体及催化剂设计中的关键要素。

Palladium-catalyzed benzene arylation: incorporation of catalytic pivalic acid as a proton shuttle and a key element in catalyst design.

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