Rate constants for the reaction of the bromomethyne radical with alkynes

Absolute rate paramctcrs wcrc mtiasured for the gas phase reactions of CBr(% '11) produced in the flash photolysis of CHBr3 with a variety of paraffins, olcfins. 0:: and NO. The rate of cyclaaddition to unsaturated bonds increases with alkyl substitution, pointing to the clcctrophilic nature of CBr.

Rate constants for the reactions of 0, and OH radicals with acetylene, propyne, and 1-butyne have been determined at room temperature. The rate constants obtained a t 294 i 2 K for the reactions of 0, with acetylene, propyne, and 1-butyne were (7.8 -c 1.2) x lo-'' cm3/molecule . s, (1.43 2 0.15) x l

The absolute rate constant for the reaction of phenyl radical with acetylene has been measured at 20 torr total pressure in the temperature range of 297 to 523 K using the cavity-ring-down technique. These new kinetic data could be quantitatively correlated with the data obtained earlier with a rela

The rate constants of the gas phase reaction of OH radicals with dimethyl sulfide (CH3SCH3) over the temperature range 260-393 K have been studied using the discharge flow-resonance fluorescence technique. The rate constants were fitted by the Arrhenius equation k = (11.8 2 2.2) x exp[-(236 2 150)/T

Perfluorobutylperoxyl radicals were produced by radiolytic reduction of perf luorobutyl iodide in aerated methanol solutions. Rate constants for the reactions of this peroxyl radical with various organic compounds were determined by kinetic spectrophotometric pulse radiolysis. The rate constants for

Relative rate constants for the reactions of hydroxyl radicals with a series of alkyl substituted olefins were measured by competitive reactions between pairs of olefins a t 298 r 2 K and 1 atmospheric pressure. Hydroxyl radicals were produced by the photolysis of H,O, with 254-nm irradiation. The o