Issue 38, 2016

Proton-coupled electron transfer in the reduction of carbonyls using SmI2–H2O: implications for the reductive coupling of acyl-type ketyl radicals with SmI2–H2O

Abstract

Samarium diiodide–water (SmI2–H2O) reagents have emerged as some of the most practical systems enabling reduction and reductive cyclizations of ketyl radicals. Recently, this reaction manifold has been extended to acyl-type radicals generated from cyclic polar carboxylic acid derivatives. However, the relationship between the fundamental electron- and proton-transfer steps in the generation of ketyl-type radicals with SmI2–H2O remains unclear. An intriguing scenario involves an initial proton-coupled electron transfer (PCET) mechanism from SmI2–H2O to the carbonyl group. Herein, we calculate with high accuracy bond dissociation free energies (BDFE) for the O–H bond in ketyl radicals in 14 cyclic and acyclic ketone, ester, imide and amide substrates and in anthracene relevant to reductions with SmI2–H2O and quantitatively assess the feasibility of concerted PCET in the reduction of carbonyl groups using SmI2–H2O. Reduction potentials of all substrates have been calculated. The data argue against concerted PCET from SmI2–H2O to carbonyl substrates.

Graphical abstract: Proton-coupled electron transfer in the reduction of carbonyls using SmI2–H2O: implications for the reductive coupling of acyl-type ketyl radicals with SmI2–H2O

Supplementary files

Article information

Article type
Paper
Submitted
29 Jul 2016
Accepted
01 Sep 2016
First published
12 Sep 2016

Org. Biomol. Chem., 2016,14, 9151-9157

Proton-coupled electron transfer in the reduction of carbonyls using SmI2–H2O: implications for the reductive coupling of acyl-type ketyl radicals with SmI2–H2O

S. Shi, R. Szostak and M. Szostak, Org. Biomol. Chem., 2016, 14, 9151 DOI: 10.1039/C6OB01621A

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