Determination of the activation energy for OH desorption in the catalytic H2 + O2 reaction on Pt

The rate constant for the reaction NHa + OH + NH= + Hz0 was determined by the comparison of the calculated induo tion period data with experiments by the shock tube technique in the range 1360-1840 K, for NHs-Ha-02-\_Ar mixtures\_ The rate constants can be represented by the expression k = 1012-4g'o

## Abstract The ability to use calculated OH frequencies to assign experimentally observed peaks in hydrogen bonded systems hinges on the accuracy of the calculation. Here we test the ability of several commonly employed model chemistries—HF, MP2, and several density functionals paired with the 6‐3

Since the activation energy for the reaction R H + 0 2 -+ R . + HO; is very close to its endothermicity, the R-H bond energy can be calculated from the activation energy for free radical formation by the reaction R H + 0 2 . The relation between Ei and QR-H was found empirically after measuring Ei b

The rate coefficient, k , of the reaction H,O + CN + HCN + OH has been determined in the temperature range 2460-2840 K using a shock tube technique. C2N2-H20-Ar mixtures were heated behind incident shock waves and the CN and OH concentration time histories were monitored simultaneously using broad-b

## 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