Temperature and pressure dependence of ozone formation rates in the range 1–1000 bar and 90–370 K
- 1 November 1990
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 93 (9) , 6560-6569
- https://doi.org/10.1063/1.458972
Abstract
The recombination O+O2+M→O3+M in the bath gases M=He, Ar, and N2 was studied over the temperature range 90–370 K and the pressure range 1–1000 bar. The temperature and pressure dependences of the reaction rates show an anomalous behavior which is attributed to superpositions of mechanisms involving energy transfer, complex formation and participation of weakly bound electronically excited O3 states. The results also show an analogy to oxygen isotope enhancements observed in ozone recombination and dissociation. Experiments in compressed liquid N2 were also made showing a transition to diffusion control.Keywords
This publication has 54 references indexed in Scilit:
- Evaluated Kinetic and Photochemical Data for Atmospheric Chemistry: Supplement III. IUPAC Subcommittee on Gas Kinetic Data Evaluation for Atmospheric ChemistryJournal of Physical and Chemical Reference Data, 1989
- UV absorption study of collisional energy transfer in vibrationally highly excited sulfur dioxide moleculesThe Journal of Physical Chemistry, 1988
- Collisional energy transfer of vibrationally highly excited CS2. II. Temperature dependence of 〈ΔE〉 from experiments in shock waves and laser-heated reactorsThe Journal of Chemical Physics, 1987
- Direct study of energy transfer of vibrationally highly excited CS2 moleculesThe Journal of Chemical Physics, 1985
- High‐pressure range of the recombination O + O2 → O3International Journal of Chemical Kinetics, 1984
- Theoretical studies of the ozone molecule. I. A b i n i t i o MCSCF/CI potential energy surfaces for the X 1A1 and a 2B2 statesThe Journal of Chemical Physics, 1981
- Predictive possibilities of unimolecular rate theoryThe Journal of Physical Chemistry, 1979
- Absolute rate constants for the reaction O + O2 + M .far. O3 + M over the temperature range 200-346.deg.KThe Journal of Physical Chemistry, 1972
- Vibrationally Excited Ozone in the Pulse Radiolysis and Flash Photolysis of OxygenThe Journal of Chemical Physics, 1968
- On the Interpretation of Halogen Atom Recombination Rates1Journal of the American Chemical Society, 1958