Kinetics of the reaction of H(2S) with HBr

The rate constant for the reaction of phenyl radical with hydrogen bromide has been measured with the cavity-ring-down method a t six temperatures between 297 and 523 K. The Arrhenius expression for the H abstraction reaction can be effectively given by: k4 = 10-10.3950.10 exp[-(551 ? 19)/T] cm3/s.

The rate constants for the reaction of with HBr and DBr have been measured with the cavityring-down method in the temperature range of 297 to 523 K and 297 to 500 K, respectively. These rate constants can be effectively represented, in units of cm3/s, by exp[(-554 2 208)/T] and kHLlr = 10-10.40?0.24

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

Studies of the reaction of Br + propylene to produce HBr and ally1 radical were made using VLPR (Very Low Pressure Reactor) over the range 263-363 K. Apparent bimolecular rate constants k;PP were found to vary in an inverse manner with the initial concentration of bromine atoms introduced into the r

A laser flash photolysis-resonance fluorescence technique has been employed to investigate the kinetics and mechanism of the reaction of electronically excited oxygen atoms, O( 1 D), with CF 2 HBr. Absolute rate coefficients (k 1 ) for the deactivation of O( 1 D) by CF 2 HBr have been measured as a

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