Quantum-classical reaction path/surface model for chemical reactions. III. The reaction H2+OH→H2O+H

An improved version of a recently reported semiclassical wavepacket approach is used to compute initial state selected total integral cross sections as well as thermal rate constants for the reaction OH+H2 ---\* H20+H. The method involves treating the diatomic vibrations as well as their relative tr

## Abstract This article describes an __ab initio__ investigation on the potential surfaces for one of the simplest hydrogen atom abstraction reactions, that is, HO + H~2~O ↔ H~2~O + OH. In accord with the findings in the previously reported theoretical investigations, two types of the hydrogen‐bon

A new potential surface for the collinear F+Hz reaction, generated using a combination of rotated Morse curves and an MRD-CI electronic structure calculation, gave a barrier height of 3.99 kcaI/mol. Quasiclassical (forward) trajectory calculations show product vibrational distributions with the same

The rate constant for the reaction between OH and vibrationally excited H2, OH + H 2 (v = 1) ~ H20 + H, has been measured directly at 298 K. kol is found to be (7.5 -+ 3) X 10 -13 cma/molecule s, corresponding to a vibrational rate enhancement ofkol/koo = (1.2 -+ 0.4) X 102.