Initial vibrational distribution and relaxation of 3CF2 produced in the reaction of oxygen atoms with tetrafluoroethylene

Structured emïssion spectra have been observed in tbe wavelengtb range 470-720 & from the reaction of oxygen atoms wïtb tetrafluoroetbylene. The emïssion is tentatively assigned to the CF2eBI) + CFz(t At) phosphorescence tiansition. The excited singlet CFz('Bt) is also formed through the triplet-Mp:

CO laser emission at 5 pm was detected when SO2 and CFBr3 were flash photolyzed in the vacuum ultraviolet above 165 nm. Over 40 vibrational-rotational transitions ranging from Au = 2 -1 to 14 -13, with the exception of those between 8 -7 and 11 -10, were identified. The CO emission is believed to r

Infrared emission (Au --2) has been observed from NO (u = 2-7) produced by the reaction N&3 f @ + NO(v) + 0. The apparent NO vibrational energy distribution is different from the distribution initially produced by the reaction owing to stepwise V-V quenching of NO(u) by collision with 02. A time-to

The kinetics of the gas-phase reaction of C1 atoms with CF31 have been studied relative to the reaction of C1 atoms with CH4 over the temperature range 271-363 K. Using k(C1 + CH4) = 9.6 X exp(-2680/RT) cm3 molecule-' s-', we derive k(C1 + CF3I) = 6.25 X lo-'' exp(-2970/RT) in which E , has units of