Theoretical calculations of thermal rate constants for the N(2D)+acetylene reaction

The title reaction, a key elementary process involved in the chemistry of molecular clouds, has been theoretically studied over the 5 -600 K temperature range. Rate constants calculations have been carried out using the full version of the statistical adiabatic channel model in conjunction with a po

To calculate atom-diatom quasiclassical rate constants at different translational and rotational temperatures for hydrogen atoms reacting with vibrationally excited hydrogen molecules, we have integrated about 10' trajectories. The most practical way of carrying out such a large calculation was to r

The absolute rate constant for the reaction of phenyl radical with acetylene has been measured at 20 torr total pressure in the temperature range of 297 to 523 K using the cavity-ring-down technique. These new kinetic data could be quantitatively correlated with the data obtained earlier with a rela

## Abstract The reaction mechanism of CF~3~CH~2~OH with OH is investigated theoretically and the rate constants are calculated by direct dynamics method. The potential energy surface (PES) information, which is necessary for dynamics calculation, is obtained at the B3LYP/6‐311G (d, p) level. The si