Homolytic bond dissociation energies of the carbon-halogen bonds in the benzyl halide radical anion intermediates formed in radical nucleophilic substitution reactions

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Abstract

A simple method has been devised for estimating the homolytic bond dissociation energies (Ebd) for cleavage of the C-X bonds in the radical anion intermediates formed in radical nucleopnilic substitution reactions of benzyl chloride, benzyl bromide, and m- and p-substituted benzyl bromides. The method consists of combining values for: (a) the Ebd of the C-X bond in PhCH2X; (b) the redox potential of PhCH 2X; and (c) the redox potential of the ionic fragment (X -). Methods of obtaining these quantities are presented. The estimates indicate: (a) that the C-Cl bond in the PhCH2Cl• - radical anion is thermodynamically unstable by about 6.5 kcal mol-1 toward cleavage to the PhCH2• radical and Cl- ion; and (b) that the C-Br bond in the PhCH2Br• - radical anion is endoenergetic toward a comparable cleavage by only about 3 kcal mol-1. On the other hand, the bond dissociation energies of the C-X bonds in these radical anions estimated for the cleavage to form a PhCH2- ions and X• atoms are not much less than those for the corresponding homolytic cleavage in the neutral parent benzyl halides. These thermodynamic estimates are consistent with various kinetic and EPR experimental results which reveal that cleavage of the C-X bonds in benzyl chloride and bromide is concerted with the addition of an electron.

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Zhang, X. M. (1993). Homolytic bond dissociation energies of the carbon-halogen bonds in the benzyl halide radical anion intermediates formed in radical nucleophilic substitution reactions. Journal of the Chemical Society, Perkin Transactions 2, (11), 2275–2279. https://doi.org/10.1039/p29930002275

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