Abstract

Abstract The kinetics and product studies of oxidation of eight olefins 1 ‐ 8 by ClO 2 in H 2 O in the pH range 3‐7 are described. The reaction is faster as the pH decreases. At pH < 4, ClO 2 reacts equimolarly with olefins to yield isomeric mixtures of chlorohydrines and 1,2‐dioxygenated products, following the equation: magnified image The order of reactivity is: ( E )‐stilbene > indene > β‐methylstyrene > acenaphthylene > α‐methylstyrene > styrene > cyclohexene > allylbenzene. A multi‐stage radical‐cation mechanism is proposed, in which an initial reversible protonation: is followed by an electron‐transfer stage (rate‐determining): magnified image The cation‐radical thus produced, adds rapidly an additional ClO 2 to form dioxygenated products. The chlorohydrines most likely arise from HClO additions to the olefinic double bonds, which, in turn, generate from dismutation of 2 HClO 2 into HClO + H + + ClO .