Kinetics of the reaction between oxygen atoms and propargyl radicals

## Abstract The reaction between H and C~3~H~5~ has been studied at 291 K. Exciplex laser flash photolysis at 193.3 nm of hexa‐1,5‐diene‐He mixtures generated both H and C~3~H~5~ ([H] ≪ [C~3~H~5~]), which were detected in time‐resolved mode by resonance fluorescence and absorption spectroscopy, res

The laser flash photolysis-absorption technique has been used to study the F + FCO + M ~ CF20 + M recombination reaction between 20 and 700 Torr of M = CF 4 at 296 K. The values krec, 0 = (5.6 + 1.2) × 10 -29 [CF 4] cm 3 molecule-1 s-1 and krec,o~ = (7.9 + 1.1) X 10-11 cm 3 molecule-1 s-1 were deter

The kinetics of the reaction of CCI 3 with O(3P) have been investigated in a heatable tubular reactor coupled to a photoionization mass spectrometer. The decay of CCI 3 was monitored as a function of O atom concentration ([O]o/[CC13] 0 > 20) to determine the rate constant of the reaction as a functi

The kinetics of the reaction of CH2OH with O(3P) has been investigated in a heatable tubular reactor coupled to a photoionization mass spectrometer. The decay of CH2OH was monitored as a function of O-atom concentration ( tO determine rate constants as a function of temperature and pressure. The ra

## Abstract The kinetics and mechanisms of the recombination reaction between benzyl and propargyl radicals have been computationally investigated by using the B3LYP, CBS‐QB3, and CASPT2 quantum chemical methods, and the steady‐state unimolecular master equation analysis based on the Rice–Ramsperge

The exponential relaxation of CHI, produced by the reaction 0 + CzHa --+ CH3 + HCO, to its steady-state concentration was quantitatively monitored after the reactants were mixed. The relaxation profiles yield the rate constant of the reaction 0 + CH3 -+ HzCO + H equal to (1.85 f 0.28) X cm3/molecule