The rate constant for the reaction of O(3P) atoms with ClONO2

The flash photolysis resonance fluorescencc technique has been used to measure the rrtte constant for the rcaction of O(3P) atoms with CION at 10 torr total pressure over the temperature range 225-273 K. The values obtained can be fit to the Arrhenius equation kr = (1.87 f 1.29) X 10-12 exp[ -(692 i

## Abstract A flow tube method has been used to determine rate constants for the elementary reactions: equation image Oxygen atoms were produced by adding a small excess of NO to a stream of partially dissociated nitrogen, and their reaction with hydrogen halide was monitored by observing the int

## Abstract Earlier work on the reactions of O(^3^P) atoms with HCl and HBr has been extended by measuring rate constants for equation image A flow‐tube method was used with chemiluminescent monitoring of the removal of atomic oxygen. Rate constants were measured at temperatures between 340 and 4

## ~~ ~ Rate constants for the gas-phase reactions of O(3P) atom with a series of rnonoterpenes have been determined at ambient temperature (ca. 302-309 K ) and atmospheric pressure using a relative rate technique Using the literature rate constants for O(3P) + isobutene, cis and trans-2-butene, 3

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

## CH(X"iI ) h;cs been produced in the muItipIe-photon dissociation ofmethykunine by a TEA CO2 I~.ser-Laser-induced fluorescence has been used to measure relative CH concentrations zz a function of time and added gs pressures-ChemiIuminescence which accompanies the reaction is due to the productio