Kinetics of O·− and O3·− in alkaline aqueous solutions of hydrogen peroxide

The photolysis of strong alkaline (pH>12.7) solutions of H₂O₂ yields O^·−, which in the presence of molecular oxygen forms the ozonide radical ion, O₃^·−. A detailed kinetic study on the reaction mechanisms involved during formation and decay of O₃^·− radical ions in these solutions, in the presence and absence of added O^·−/HO^· scavengers is reported. In order to obtain a complete interpretation of the experimental data, kinetic computer simulations were done using a complete set of reactions. A very good agreement between experimental and computer simulated data is obtained. The following simplified mechanism accounts for the observed first-order decay of O₃^·− in alkaline hydrogen peroxide solutions: O^·− + O₂ → O₃^·− O₃^·− → O^·− + O₂ O^·− + S → OH^· + S → HO^· + HO₂⁻ → O₂^·− + H₂O O^·− + HO₂⁻ → O₂^·− + HO⁻ with S: O^·−/HO^· scavengers. © 1997 John Wiley & Sons, Inc.