Mechanisms of free-radical aromatic substitution

In a recent communication, Ellel, Eberhardt, Simamura and Meyerson,' while recognising a common homolytic substitution pattern in the arylation of aromatic compounds with three sources of aryl radicals, namely diarpfll peroxides, acylarylnitrosamines, and arylazotriarylmethanes, regarded the first o

Recently, Kim and Bunnett' and we3 simultaneously proposed a new radical some reactions which formally appear to be aromatic nucleophilic substitutions. further support from the results of our studies on the uncatalysed reactions of benzenediazonium cations with the iodide ion as reported in this c

Benzenesulfonyl radical can be generated from sodium benzenesulfinate in aqueous acetic acid or formic acid. A benzenesulfonyi radical induced radical reaction of tt~-allylsulfonylalkyl substituted aromatic and heteroaromatic derivatives is described. Alkyl radicals can be generated efficiently from

Gencralizcd Hartrce-Fock (CHF) calculations Indicate that the aromatic substitutiou reaction kr the ground state CXI bc classified into three types: (A) nonradical ionic (S N2, SE2) reaction, where the closed-shell character is always retained; (B) electron-transfer type I (ET I) reaction, where the