Laser-induced fluorescence of the P radical

HSiF has been detected by laser-induced fluorescence, following the formation of the ground-state radical in the flow reaction of SiH2 with Fz at a total pressure of 0.05-0.15 Ton. We report here the radiitive life-tie of the fust vibronic state of HSiF (A 'A") as well as a tentative assignment of

Iser-based clwmicsl kinetics technique has been demonstrated in studies of the reaction of 011 with C2114\_ The rcxtwn mcchnism is dominated by elcctrophtlic addition of OH to the double bond at low temperatures, and by increasing-I\ rApid decomposition of the thcrmalized adduct iiOC2t-l.~ back to r

## Abstract The laser photolysis‐laser‐induced fluorescence method was used for measuring the kinetic parameters of the reaction of OH radicals with CF~3~CH~2~OCH~2~CF~3~ (2,2,2‐trifluoroethyl ether), in the temperature range of 298–365 K. The bimolecular rate coefficient at 298 K, __k__~II~(298),

## Abstract The kinetics of the reaction of the benzyl radical with molecular oxygen has been studied between 393 and 433 K. The Discharge Flow technique with detection of benzyl radicals by Laser Induced Fluorescence in their visible absorption band has been used. All experiments have been perform

Laser-mduced fluorescence of the x 'A"-% 'A' transition in the gas-phase CHF radical has been observed, foBowing the fo\_rmatron of the ground-state radical by 1R multiple-photon dissociation. Radiative kfetimes of four vibroruc states of CHF (A 1 A") are reported. \* Throughout tius paper ape value

Dichlorosilylene, Sic12 , in the gas phase has been detected by laser-induced fluorescence of the x 'B1-?? 'Al transition in the 309-333 mn region. The wavenumber of the 0: transition is determined to be 30003.6 f 0.5 cm-' (333.20 nm). The fundamental vibrational frequencies are assigned to be IJ~ =