Mechanism and kinetics for the reaction of O(3P) with DMSO: A theoretical study

## Abstract The mechanism and kinetics of the reaction of O(^3^__P__) atoms with propane were investigated using molecular modulation spectroscopy, with the O(^3^__P__) atoms being generated by the Hg photosensitized decomposition of N~2~O. The absorption spectrum of the __X__^2^II~3/2~ state of OH

## Abstract The reaction of O(^3^P) with 1‐butene (CH~3~CH~2~CHCH~2~) are examined by applying the UMP2 and G3 methods. The minimum energy crossing points (MECPs) between the singlet and triplet potential energy surfaces are located using the Newton‐Lagrange method, and it is shown that the MECPs

## Abstract The kinetics of the reaction of O(^3^__P__) atoms with acetone were investigated using fast flow methods. The reaction was studied over a temperature range of 298 to 478°K. The specific rate constant obtained was (1.9 ± 0.4) × 10^12^ exp(—5040 ± 180/1.987 __T__) cm^3^/mol·sec. The obser

A laser flash photolysis-resonance fluorescence technique has been employed to study the kinetics of the reaction of O(3P) with CF3NO (kz) as a function of temperature. Our results are described by the Arrhenius expression k z ( T ) = (4.54 ? 0.70) X 10-12exp[(-560 i 46)/T] cm3molecule-'s-' (243 K 5