Reaction of O(3P) atoms with nitromethane vapour at 295 K

The reactions of CH3 radicals with O(3P) and 0 2 have been studied at 295 K in a gas flow reactor sampled by a mass spectrometer. For the reaction between CH3 and 0, conditions were such that [O] >> [CH3] and the methyl radicals decayed under pseudo-first-order conditions giving a rate coefficient o

## Abstract The flash photolysis–vacuum ultraviolet kinetic absorption spectroscopy technique has been used to measure the absolute rate constant for the reaction of ground state S(^3^__P__) atoms withnitric oxide,\documentclass{article}\pagestyle{empty}\begin{document}${\rm S}\left({^{\rm 3} P} \r

Using relative rate techniques the reactions of chlorine and fluorine atoms with HC(O)F have been determined to proceed with rate constants of and respectively. Stated errors reflect statistical uncertainty; possible systematic uncertainties could add additional 10% and 20% ranges to the values of k

The variations of yields of CO\* from the gas phase Hz02 + NO\* + CO chain reaction system with added nitromcthane or methyl nitrite have given rate constants for reactions of OH radicals with these substrates. At 292 I; these are (5.5 + 0.6) X IO8 and (g.0 & 1.1) x !08 dm3 rnc11-~ s-l respectively.

The relative rate technique has been used to determine the rate constants for the reaction of chlorine atoms with a series of oxygenated organic species. Experiments were performed a t 295 t 2 K and atmospheric pressure of synthetic air or nitrogen. The decay rates of the organic species were measur

Using a relative rate technique the reactions of chlorine and fluorine atoms with CF3CHO have been determined to proceed with rate constants of (1.8 % 0.4) x and (2.7 2 0.1) x lo-" cm3 molecule-' s-', respectively. Experiments were performed a t 295 ? 2 K and 700 torr total pressure of nitrogen. The