Computational studies on the reactions of 3-butenyl and 3-butenylperoxy radicals

The multiple-channel reactions OH 1 CH 3 SCH 3 ? products, CF 3 1 CH 3 SCH 3 ? products, and CH 3 1 CH 3 SCH 3 ? products are investigated by direct dynamics method. The optimized geometries, frequencies, and minimum energy path are all obtained at the MP2/6-311G(d,p) level, and energetic informatio

## Abstract The multiple‐channel reactions SiH~3~ + SiH(CH~3~)~3~ → products are investigated by direct dynamics method. The minimum energy path (MEP) is calculated at the MP2/6‐31+G(d,p) level, and energetic information is further refined by the MC‐QCISD (single‐point) method. The rate constants f

## 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

Hydrogen abstraction from boron trimethyl has been studied using the abstracting radicals CF3 and CD3, from the photolysis of the corresponding ketones over the temperature range of 150° to 300°C. The following Arrhenius parameters were obtained: 98 kcal/mole (CFJ + BMe3); log A = 11.6, E = 6.59 kc

The energetics of the reactions of FO radicals with methane is examined using ab initio molecular methods. The best estimate of the heat of reaction mzO is 4.2 f 2 kcal mol -' and AiY$ is 16.1+ 2 kcal mol -' calculated at the QCISD(T) /6-311+ +G( 2df, 2p) level of theory. The atmospheric implication