Abstract

Abstract Reactions of oxygen atoms with ethylene, propene, and 2‐butene were studied at room temperature under discharge flow conditions by resonance fluorescence spectroscopy of O and H atoms at pressures of 0.08 to 12 torr. The measured total rate constants of these reactions are K = (7.8 ± 0.6)·10 −13 cm 3 s −1 , K = (4.3 ± 0.4) ± 10 −12 cm 3 s −1 , K = (1.4 ± 0.4) · 10 −11 cm 3 s −1 . The branching ratios of H atom elimination channels were measured for reactions of O atoms with ethylene and propene. No H‐atom elimination was found for the reaction of O‐atoms with 2‐butene. A redistribution of reaction O + C 2 channels with pressure was found. A mechanism of the O + C 2 reaction was proposed and the possibility of its application to other olefins is discussed. On the basis of mechanism the pressure dependence of the total rate constant for reaction O + C 2 was predicted and experimentally confirmed in the pressure range 0.08–1.46 torr.