Rate constant and products of the BrO + BrO reaction at 298 K

A discharge flow reactor coupled to a laser-induced fluorescence (LIF) detector and a mass spectrometer was used to study the kinetics of the reactions CH O ϩ Br : 3 (1) and (2). From the kinetic analysis of CH 3 O by LIF in the products CH O ϩ BrO : products 3 presence of an excess of Br or BrO, th

## Abstract The relative rate technique has been used to determine the rate constants for the reactions Cl + CH~3~OCHCl~2~ → products and Cl + CH~3~OCH~2~CH~2~Cl → products. Experiments were carried out at 298 ± 2 K and atmospheric pressure using nitrogen as the bath gas. The decay rates of the org

The total rate constant k 1 has been determined at P ϭ 1 Torr nominal pressure (He) and at T ϭ 298 K for the vinyl-methyl cross-radical reaction: (1) CH 3 ϩ C 2 H 3 : Products. The measurements were performed in a discharge flow system coupled with collision-free sampling to a mass spectrometer oper

The angular and velocity distribution of the ICl product from reaction (1) at 4.5 kcal/mol collision energy has been obtained by Cross and Blais in a crossed-molecular-beam study [1]. It was concluded that the angular distribution is consistent with that arising from short range attractive forces an

## Abstract The rate constant of the reaction of α‐pinene with atomic hydrogen was determined at 295 K using the fast‐flow reactor technique directly coupled to a mass spectrometric detection technique. The value was found to be equal to (9.8 ± 3.3) × 10^−13^ cm^3^ molecules^−1^ s^−1^ and independe