Reactions and Kinetics of Unsaturated C2 Hydrocarbon Radicals

A mixture of Brz + HBr + CzFsI was photolyzed in the vapor phase. The reaction Br + CzFsI -IBr + CzF5 forms CzFb radicals which are removed by (9) CzFs + Brz -CzFbBr + Br kg (10) CzFs + HBr -CzFsH + Br klo Competitive studies over the range of 74-146'C gave ratios of h l ~/ h s , and these were comb

The thermochemistry and kinetics of the initiation reactions involved in the oxidation of unsaturated fuels are explored. The thermochemistry of intermediate radicals, diradicals. and molecular species involved are estimated using group additivity with some assistance from bond additivity. Kinetic p

## Abstract Radical reactions: The ground‐state potential energy surface of the C~2~H~5~O system is investigated by ab initio methods using optimized geometries. The rate constants for the unimolecular isomerization and decomposition reactions of the three isomeric radicals (see picture) are calcul

The reactions (2) (3) have been studied competitively in the vapor phase over the range of 52-204°C. The i-C3F7 radicals were generated by means of the reaction It was found that log kz/k3 = (0.55 f 0.07) + (10,870 f 560)/0 where 0 = 2.303RT J/mol. Absolute Arrhenius parameters are derived for the

## Abstract The rates of the reactions of hydroxyl radicals (OH) with styrene, α‐methylstyrene, and β‐methylstyrene have been measured by irradiating mixtures of these aromatic olefins and NO in an environmental chamber at 298 K. Experimental conditions were used whereby the competition of ozone wi