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. 2016 Jun 20;22(26):9015-23.
doi: 10.1002/chem.201600288. Epub 2016 May 17.

Silver(I)-Catalyzed Addition of Phenols to Alkyne Cobalt Cluster Stabilized Carbocations

Carolina Valderas  1   2   3 Luis Casarrubios  1   3 Agusti Lledos  4   3 Manuel A Ortuño  4   3 María C de la Torre  5   6 Miguel A Sierra  7   8
Affiliations

Silver(I)-Catalyzed Addition of Phenols to Alkyne Cobalt Cluster Stabilized Carbocations

Carolina Valderas et al. Chemistry. .

Abstract

A smooth catalytic method to use phenols as the nucleophilic partner in the Nicholas reaction has been developed. The method uses either Ag(I) or Au(I) catalysts with AgClO4 or AgBF4 as the most efficient catalysts tested. Neither additional additives nor cocatalysts were required and the formation of the corresponding phenol adducts occurred in excellent yields. The process has the single limitation of the inability of less nucleophilic phenols (4-nitrophenol) to generate the corresponding adducts. Additionally, the reaction is highly diastereoselective. DFT calculations allow a catalytic cycle to be proposed that involves trimetallic intermediates; the rate-determining step of the reaction is hydroxy-group elimination in a cobalt-silver trimetallic intermediate.

Keywords: Nicholas reaction; density functional calculations; homogeneous catalysis; reaction mechanisms; silver.

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