Silver-free two-component approach in gold catalysis: activation of [LAuCl] complexes with derivatives of copper, zinc, indium, bismuth, and other Lewis acids

Weizhen Fang; Marc Presset; Amandine Guérinot; Christophe Bour; Sophie Bezzenine-Lafollée; Vincent Gandon

doi:10.1002/chem.201304831

Silver-free two-component approach in gold catalysis: activation of [LAuCl] complexes with derivatives of copper, zinc, indium, bismuth, and other Lewis acids

Chemistry. 2014 Apr 25;20(18):5439-46. doi: 10.1002/chem.201304831. Epub 2014 Mar 18.

Authors

Weizhen Fang¹, Marc Presset, Amandine Guérinot, Christophe Bour, Sophie Bezzenine-Lafollée, Vincent Gandon

Affiliation

¹ ICMMO (UMR CNRS 8182), LabEx CHARMMMAT, Université Paris-Sud, 91405 Orsay (France), Fax: (+33) 169-154-747.

PMID: 24644066
DOI: 10.1002/chem.201304831

Abstract

Complexes of type [LAuCl] (L = phosphine, phosphite, NHC and others) are widely employed in homogeneous catalysis, however, they are usually inactive as such and must be used jointly with a halide scavenger. To date, this role has mostly been entrusted to silver salts (AgSbF6 , AgPF6, AgBF4, AgOTf, etc.). However, silver salts can be the source of deactivation processes or side reactions, so it is sometimes advisable to use silver-free cationic gold complexes, which can be difficult to synthesize and to handle compared with the more robust chloride. We show in this study that various Lewis acids of the transition and main group metal families are expedient substitutes to silver salts. We have tested Cu(I), Cu(II), Zn(II), In(III), Si(IV), Bi(III), and other salts in a variety of typical Au(I)-catalyzed transformations, and the results have revealed that [LAuCl] can form active species in their presence.

Keywords: bismuth; catalysis; copper; gold; indium.