Abstract

Abstract Production of organic nitrates from OH reaction with cyclohexane, cyclohexene, n ‐butane, 1‐bromopropane, and p ‐xylene in the presence of NO was studied. The total organic nitrate yields for cyclohexane and n ‐butane were determined to be 17 ± 4 and 7 ± 2% respectively, which is in good agreement with previous determinations. Total yields for cyclohexene, 1‐bromopropane, and p ‐xylene were 2.5 ± 0.5, 1.2 ± 0.3, and 3.2 ± 0.7 respectively. The yield for cyclohexene was five times smaller than that for cyclohexane. The 1‐bromopropane yield is three times smaller that that for n ‐propane, but similar to that for propene, indicating that the effect of Br substitution in the reactant may be similar to that for OH substitution. The only nitrooxy product detected for p ‐xylene was 4‐methylbenzylnitrate, which was formed following H abstraction from either methyl group. No organic nitrate was detected for peroxy radicals produced from OH addition to the ring, which accounts for 90% of the OH oxidation of p ‐xylene. The calculated k 3b / k 3 value for p ‐methyl benzyl peroxy radicals (0.32) was slightly smaller than for n ‐octyl peroxy radicals (0.39). These data imply that substituent inductive effects impact the k 3b / k 3 ratios. We found no significant difference in the k 3b / k 3 ratios for primary vs. secondary peroxy radicals of the same carbon chain. © 2005 Wiley Periodicals, Inc. Int J Chem Kinet 37: 675–685, 2005