Kinetic study of some elementary reactions of sulfur compounds including reactions of S and SO with OH radicals

Kinetic investigations on the reaction of N,N'-dicyclohexyl-O-(1-methylheptyl)isourea with acetic acid are described. The conversion proceeds partly through the intermediacy of a methylheptylcarbenium ion. However, in dilute solution an S N 2 mechanism prevails. The results are discussed in terms of

Reaction rate coefficients of methyl and ethyl nitrates with OH radicals were determined by the relative rate method in 1 atmosphere of oxygen. Reactions were initiated by the photochemical formation of OH radicals utilizing the reaction: was obtained through a stationary photolysis of excess ozone

Reactions of CFSBr with H atoms and OH radicals have been studied a t room temperature a t 1-2 torr pressures in a discharge flow reactor coupled to an EPR spectrometer. The rate constant of the reaction H + CF3Br -CF3 + HBr (1) was found to be k l = (3.27 f 0.34) X cm:'/moleesec was determined for

The reactions of OH radicals with dimethylsulfide (DMS) diethylsulfide (DES), tetrahydrothiophene (THT), and thiophene have been studied at room temperature for DES and THT, a t 273,293, and 318 K for DMS, and at 293 and 318 K for thiophene by the discharge flow EPR technique in a halocarbon wax coa

Some relative rate experiments have been carried out at room temperature and at atmospheric pressure. This concerns the OH-oxidation of some oxygenated volatile organic compounds including methanol (k 1 ), ethanol (k 2 ), MTBE (k 3 ), ethyl acetate (k 4 ), n-propyl acetate (k 5 ), isopropyl acetate

The reactions of N,O with NO and OH radicals have been studied using ab initio molecular orbital theory The energetics and molecular parameters, calculated by the modified Gaussian-2 method ( G 2 M ) . have been used to compute the reaction rate constants on the basis of the TST and RRKM theories Th