Measurements of the O++N2 and O++O2 reaction rates from 300 to 900 K
- 15 September 1978
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 69 (6) , 2688-2691
- https://doi.org/10.1063/1.436917
Abstract
Rate coefficients for the O++N2 atom transfer and O++O2 charge transfer reactions are determined at thermal energies between ∼300 and ∼900 K in a heated drift tube–mass spectrometer apparatus. At 300 K the values k (O++N2)(=1.2±0.1) ×10−12 cm3/s and k (O++O2) = (2.1±0.2) ×10−11 cm3/s are obtained, with a ∼50% decrease in the reaction rates upon heating to 700 K. These results are in good agreement with heated flowing afterglow results, but the O++O2 thermal rate coefficients are systematically lower than equivalent Maxwellian rates inferred by conversion of nonthermal drift tube and flow–drift data.Keywords
This publication has 10 references indexed in Scilit:
- Monte Carlo simulation of ion motion in drift tubesThe Journal of Chemical Physics, 1977
- Effects of ion speed distributions in flow-drift tube studies of ion–neutral reactionsThe Journal of Chemical Physics, 1977
- Temperature dependence of some ionospheric ion-neutral reactions from 300°-900°KJournal of Geophysical Research, 1974
- Flow-drift technique for ion mobility and ion-molecule reaction rate constant measurements. II. Positive ion reactions of N+, O+, and H2+ with O2 and O+ with N2 from thermal to [inverted lazy s]2 eVThe Journal of Chemical Physics, 1973
- Measurements of the O+ + N2 and O+ + O2 reaction rates from 300°K to 2 eVThe Journal of Chemical Physics, 1973
- Effect of Metastable O+(2D) on Reactions of O+ with Nitrogen MoleculesThe Journal of Chemical Physics, 1971
- Ion–Molecule Reactions, He++O2 and He++N2, at Thermal Energies and AboveThe Journal of Chemical Physics, 1969
- Ion–Molecule Reaction Studies from 300° to 600°K in a Temperature-Controlled Flowing Afterglow SystemThe Journal of Chemical Physics, 1968
- Reaction of atomic oxygen ions with vibrationally excited nitrogen moleculesPlanetary and Space Science, 1967
- Some measured rates for oxygen and nitrogen ion-molecule reactions of atmospheric importance, including O+ + N2 → NO+ + NPlanetary and Space Science, 1965