Kinetic investigation of the elemental reactions of oxygen atoms in the gas phase by ESR III. The reaction O(3P)+O3=2O2

A relative rate approach has , been used to measure the reactivity of CF,O radicals towards ozone. Using k(CFaO+NOa)=2,7x IO-" cm' molecule-' s-' as the referencereactioqanupperlimit ofk(CF,O+Os) 63~ 10-'4cmSmolecule-' was determined at 295 K and 700 Torr of O2 diluent. The implications for the atmo

The gas-phase, ion molecule reaction between C,O:' and C,O, has been studied by both double-focusing and ion trap mass spectrometry, rationalized by the formation of a dimeric, odd electron cation IC6041+" which decomposes extensively through sequential CO losses giving rise to IC,O,l+. and IC,O,l+'

The bimolecular rate constant for the reaction Cl + 03 -Cl0 + O2 is measured over the temperature range 210 to 360 K in it dischare flow system using Cl nfom rcsonzncc fluorescence at 134-72 nm to monitor the decay of Cl under pseudo fist order conditions. Results, expressed in the form k, = (2.35 i

## Abstract The kinetics of the reaction of O(^3^__P__) atoms with acetone were investigated using fast flow methods. The reaction was studied over a temperature range of 298 to 478°K. The specific rate constant obtained was (1.9 ± 0.4) × 10^12^ exp(—5040 ± 180/1.987 __T__) cm^3^/mol·sec. The obser

## 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)