Kinetics and mechanism of vapour phase aromatic olefin—OH reactions

## Abstract The rates of the reactions of hydroxyl radicals (OH) with styrene, α‐methylstyrene, and β‐methylstyrene have been measured by irradiating mixtures of these aromatic olefins and NO in an environmental chamber at 298 K. Experimental conditions were used whereby the competition of ozone wi

The rate constant k , for the reaction of OH radicals with C102 molecules was measured in a discharge flow system over the temperature range 293 5 T < 473 K and at low pressures, 0.5 5 P 5 1.4 torr, using electron paramagnetic resonance or laser-induced fluorescence to monitor the pseudo first-order

## Abstract The kinetics and mechanism of the following reactions have been studied in the temperature range 230–360 K and at total pressure of 1 Torr of helium, using the discharge‐flow mass spectrometric method: 1a: 1b: The following Arrhenius expression for the total rate constant was obtaine

## Abstract Unrestricted density functional theory (BHandHLYP) calculations have been performed, using the 6‐311G(d,p) basis sets, to study the gas‐phase OH hydrogen abstraction reaction from methionine. The structures of the different stationary points are discussed. Ring‐like structures are found