Radical-anion coupling through reagent design: hydroxylation of aryl halides

Andrew J Greener; Patrycja Ubysz; Will Owens-Ward; George Smith; Ivan Ocaña; Adrian C Whitwood; Victor Chechik; Michael J James

doi:10.1039/d1sc04748e

Radical-anion coupling through reagent design: hydroxylation of aryl halides

Chem Sci. 2021 Oct 22;12(43):14641-14646. doi: 10.1039/d1sc04748e. eCollection 2021 Nov 10.

Authors

Andrew J Greener¹, Patrycja Ubysz¹, Will Owens-Ward¹, George Smith¹, Ivan Ocaña¹, Adrian C Whitwood¹, Victor Chechik¹, Michael J James¹

Affiliation

¹ Department of Chemistry, University of York Heslington York YO10 5DD UK [email protected].

Abstract

The design and development of an oxime-based hydroxylation reagent, which can chemoselectively convert aryl halides (X = F, Cl, Br, I) into phenols under operationally simple, transition-metal-free conditions is described. Key to the success of this approach was the identification of a reducing oxime anion which can interact and couple with open-shell aryl radicals. Experimental and computational studies support the proposed radical-nucleophilic substitution chain mechanism.