Expedient iron-catalyzed coupling of alkyl, benzyl and allyl halides with arylboronic esters

Robin B Bedford; Peter B Brenner; Emma Carter; Thomas W Carvell; Paul M Cogswell; Timothy Gallagher; Jeremy N Harvey; Damien M Murphy; Emily C Neeve; Joshua Nunn; Dominic R Pye

doi:10.1002/chem.201402174

Expedient iron-catalyzed coupling of alkyl, benzyl and allyl halides with arylboronic esters

Chemistry. 2014 Jun 23;20(26):7935-8. doi: 10.1002/chem.201402174. Epub 2014 Apr 8.

Authors

Robin B Bedford¹, Peter B Brenner, Emma Carter, Thomas W Carvell, Paul M Cogswell, Timothy Gallagher, Jeremy N Harvey, Damien M Murphy, Emily C Neeve, Joshua Nunn, Dominic R Pye

Affiliation

¹ School of Chemistry, University of Bristol, Cantock's Close, Bristol, BS8 1TS (UK). r.bedford@bristol.ac.uk.

PMID: 24715587
DOI: 10.1002/chem.201402174

Abstract

While attractive, the iron-catalyzed coupling of arylboron reagents with alkyl halides typically requires expensive or synthetically challenging diphosphine ligands. Herein, we show that primary and secondary alkyl bromides and chlorides, as well as benzyl and allyl halides, can be coupled with arylboronic esters, activated with alkyllithium reagents, by using very simple iron-based catalysts. The catalysts used were either adducts of inexpensive and widely available diphosphines or, in a large number of cases, simply [Fe(acac)3] with no added co-ligands. In the former case, preliminary mechanistic studies highlight the likely involvement of iron(I)-phosphine intermediates.

Keywords: Suzuki coupling; alkyl halides; catalysis; cross-coupling; iron.