Upper limits for the rate constant for the reaction Br + H2O2 → HBr + HO2

The technique of her flash photolysis-resonance fhorescence has been employed to study the kinetics of the reaction OH + HI+ -Hz0 + Br over the temperature ranse 249-416 K\_ The rate conshnt is found to be independent of tcmpera-hue\_ A simple aberage of the results obtained at six temperatures give

## Abstract The reaction C~2~H~5~ + HBr → C~2~H~6~ + Br has been theoretically studied over the temperature range from 200 to 1400 K. The electronic structure information is calculated at the BHLYP/6‐311+G(d,p) and QCISD/6‐31+G(d) levels. With the aid of intrinsic reaction coordinate theory, the mi

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HO2 profiles in the thermal decomposition of H,02 in shock waves over the range 1000-1250 K were analyzed with respect to the reactions HO+HZOz+HOz+H20 (3) and HO+H0r~Hz0+02 (4). Reaction (3) shows a strong up-turn ofthe rate constant at temperatures near 800 K. Over the range 250-1250 K, k, can be

The room temperature rate coefficient for the reaction (3) Br ϩ Br O : Br ϩ BrO 2 2 has been measured using the technique of pulse-laser photolysis with long-path transient absorption detection of the BrO reaction product. A value of k ϭ (2.0 Ϯ 0.5) ϫ 3 was determined. The photolysis products of Br