UV absorption spectra, kinetics, and mechanisms of the self reaction of CF3O2 radicals in the gas phase at 295 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

The ultraviolet-absorption spectrum and the self-reaction of CHF202 radicals have been studied in the gas phase at 298 K using the pulse radiolysis technique and long-pathlength Fourier transform infrared spectroscopy. Absorption cross sections were quantified over the wavelength range 220-280 nm. T

The ultraviolet absorption spectra of the peroxy radicals derived from hydrochlorofluorocarbons 141b and 142b, (CFClzCHZOz and CFzClCHz02, respectively), and the kinetics of their self reactions have been studied in the gas phase at 298 K using a pulse radiolysis technique. Absorption cross sections

Neopentyl radicals were produced via the reaction F+ ( CH3)&-r (CH,)sCCH2 t HF, which was initiated by pulse radiolysis of neopentane/SF, gas mixtures at 298 K. The ultraviolet absorption spectrum of neopentyl radicals has been recorded over the wavelength range 220-270 nm. An absorption cross secti

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+

The ultraviolet absorption spectra of chloromethylperoxy and fluoromethylperoxy radicals, CH2C10z and CH2F02, and the kinetics of their respective self reactions have been studied in the gas phase using a flash photolysis technique. The absorption spectra for both radicals were quantified over the w