Zinc-Promoted Aminomethylation of Organic Halides

I. H. S. Estevam; M. F. da Silva; L. W. Bieber

doi:10.1055/s-2005-921729

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Synfacts 2006(1): 0061-0061
DOI: 10.1055/s-2005-921729

Metal-Mediated Synthesis

Zinc-Promoted Aminomethylation of Organic Halides

Contributor(s): Paul Knochel, Andrei Gavryushin
I. H. S. Estevam, M. F. da Silva, L. W. Bieber*
Universidade Federal de Pernambuco, Recife and Universidade do Estado da Bahia, Salvador, Brazil

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Publication History

Publication Date:
16 December 2005 (online)

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Significance

This work presents an extremely simple and surprisingly general synthetic method for aminomethylation of organic halides, i.e. formation of tertiary amines with one ‘additional’ CH₂ group. The described method is an ingenious one-pot combination of a Barbier-type reaction and acid-catalyzed imine formation. The mechanism differs from the usual formation of organozinc species followed by a nucleophilic attack. Copper iodide was found to catalyze the process, whereas a radical quencher such as BHT is an inhibitor. The reaction starts with the formation of a radical derived from the alkyl halide, which reacts immediately with a highly electrophilic immonium cation. Probably, the copper salts participate in this step. This is leading to a cation-radical, which is reduced by Zn to form the final amine. The radical pathway was proved by using the ‘radical clock’ 6-iodo-1-hexene, which gave mostly the cyclization product.