IR and UV Absorption Spectrum of the Trifluoromethoxy Radical, CF 3 O·, Isolated in Rare Gas Matrices

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

Through a double-resonance technique, the FT-IR absorptions of the lowest-lying triplet state of C3 have been observed in argon and neon matrices. The lonp-lived P 311. state is populated by an intersystem crossing from the excited A 'II" state. The difference spectra obtained with and without Cs A

The ultraviolet absorption spectrum and the self reaction kinetics of CF302 radicals have been studied in the gas phase at 298 K using the pulse radiolysis technique. Long pathlength Fourier transform infrared (FTIR) spectroscopy was used to identify and quantify reaction products. Absorption cross

Alkyl and alkylperoxy radicals originating from dimethyl ether have been studied in the gas phase at 296 K. A pulse radiolysis-UV absorption technique was used. Absorption cross-sections were quantified over the wavelength range 220-350 nm. At 230 nm, O'cH3oclJ2 = (4.2 + 0.5)× 10 -18 cm 2 molecule-l

The absolute UV absorption cross sections of CF3CC1202, CFJCHF02, CFC12CH202, and CFZCICH20, have been measured in the gas phase at 298 K in the range 200-290 nm using the flash-photolysis technique. CF,COCl has been identified as a product in the system involving the self-reaction of CF$C1202.