The rate constant for the reaction O3 + NO2 → O2 + NO3 over the temperature range 259–362 °K

## Abstract The reaction NO + O~3~ → NO~2~ + O~2~ has been studied in a 220‐m^3^ spherical stainless steel reactor under stopped‐flow conditions below 0.1 mtorr total pressure. Under the conditions used, the mixing time of the reactants was negligible compared with the chemical reaction time. The p

The CHsOs radical was generated by pulsed laser photolysis and was detected directly by photoionization mass spectrometry. The radical was photoionized by the Ar resonance lines ( 11.62 and 11.83 eV) and detected as the parent ion, CHsO: . Reactions of CH302 and CDs02 with NO were studied by time-re

## Abstract Measurements of the rate coefficient of the reaction (O^3^__P__) + NO~2~ → O~2~ + NO have been made at 296°K and 240°K, using the technique of NO~2~\* chemiluminescent decay. Values of 9.3 × 10^−12^ cm^3^ molec^−1^ sec^−1^ at 296°K and 10.5 × 10^−12^ cm^3^ molec^−1^ sec^−1^ at 240°K wer

The molecular modulation spectroscopic technique was employed to study the kinetics of NO3 radicals produced in the 253.7 nm photolysis of flowing gas mixtures of HNO3/CH4/O2 at room temperature. By computer fitting of the NO, temporal behavior, a rate coefficient of (2.3 ? 0.7) x lo-'' cm3 molecule