Chan-Lam coupling

The Chan–Lam coupling reaction – also known as the Chan–Evans–Lam coupling is a cross-coupling reaction between an aryl boronic acid and an alcohol or an amine to form the corresponding secondary aryl amines or aryl ethers, respectively. The Chan–Lam coupling is catalyzed by copper complexes. It can be conducted in air at room temperature. The more popular Buchwald–Hartwig coupling relies on the use of palladium. The Chan–Lam coupling reaction – also known as the Chan–Evans–Lam coupling is a cross-coupling reaction between an aryl boronic acid and an alcohol or an amine to form the corresponding secondary aryl amines or aryl ethers, respectively. The Chan–Lam coupling is catalyzed by copper complexes. It can be conducted in air at room temperature. The more popular Buchwald–Hartwig coupling relies on the use of palladium. Chan, Evans, and Lam published their work nearly simultaneously. The mechanism however remained mysterious for many years. Analysis of the mechanism is complicated by the lability of copper reagents and the multicomponent nature of the reaction. The reaction proceeds via the formation of copper-aryl complexes. A copper(III)-aryl-alkoxide or copper(III)-aryl-amide intermediate undergoes Reductive elimination to give the aryl ether or aryl amine, respectively: