Spectrokinetic studies of the gas-phase equilibrium F+O2⇌FO2 between 295 and 359 K

The ultraviolet absorption spectrum of FOz radicals and the kinetics of the reaction of F atoms with O2 have been studied in the gas phase at 295 K using pulse radiolysis combined with kinetic UV spectroscopy. At 230 nm, ora = (5.08 f 0.70) x lO-'8 cm\* molecule-'. The kinetics of the reaction F+02+

Ab initio techniques inclusive of electron correlation (MP2) are used to study the gas-phase dimerization of water tetramers (T) into octamers (0), which is relevant to a model for the specific heat of liquid water. The T species has one basic structure, whereas three different conformations for the

We have extended the highly precise laser photolysis/cw laser-induced fluorescence technique to the study of CN-radical reaction kinetics. We investigated the reaction of CN with O2 over the temperature range 295-7 IO K. The measured reaction-rate coeflicients are well represented over this temperat

## Abstract The kinetics of the recombination reaction corresponding to the FSO~3~ + FSO~3~ ⇔ F~2~S~2~O~6~ equilibrium system has been studied. A time‐resolved absorption spectroscopy technique was employed to monitor the appearance of thermally generated FSO~3~ radicals at 450 nm following a small

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 ultraviolet absorption spectrum, kinetics, and mechanism of the self reaction of CF3CF202 radicals have been studied in the gas phase a t 295 K. Two techniques were used; pulse radiolysis W absorption to measure the spectrum and kinetics, and long-path length FTIR spectroscopy to identify and qu