An evaluation of rate data for the reactions of atomic Oxygen (O3P) with methane and ethane

## Abstract The reaction of O(^3^__P__) atoms with isobutane has been studied by using the discharge‐flow system described previously [1]. The rate constant was measured from determinations of the isobutane concentration in the presence of an excess of O atoms and is given by __k__~1~ = (7.9 ± 1.4)

## Abstract The reaction of O(^3^__P__) atoms with propanehas been studied at temperatures near 300 K by using a discharge flow system. Oxygen atoms were generated in the absence of molecular oxygen by the reaction N + NO → N~2~ + O, nitrogen atoms having been generated in a microwave discharge. Ra

The O(3P) + CION reaction has been studicd in a fast flow system over the temperature range from 213 to 295 K, using the air-aftereIow technique for the detection of oxygen atoms under pseudo first order conditions. A value of (3.4 z 0.6) x 10-" exp[(-840 + 60)/T] cm3 molecule-' s-' has been obtaine

## Abstract Earlier work on the reactions of O(^3^P) atoms with HCl and HBr has been extended by measuring rate constants for equation image A flow‐tube method was used with chemiluminescent monitoring of the removal of atomic oxygen. Rate constants were measured at temperatures between 340 and 4

## Abstract A flow tube method has been used to determine rate constants for the elementary reactions: equation image Oxygen atoms were produced by adding a small excess of NO to a stream of partially dissociated nitrogen, and their reaction with hydrogen halide was monitored by observing the int

## ~~ ~ Rate constants for the gas-phase reactions of O(3P) atom with a series of rnonoterpenes have been determined at ambient temperature (ca. 302-309 K ) and atmospheric pressure using a relative rate technique Using the literature rate constants for O(3P) + isobutene, cis and trans-2-butene, 3