Ab Initio Study on the Mechanism of the Atmospheric Reaction OH+O3→HO2+O2

## Abstract The atmospheric reaction NO~2~ + O~3~ → NO~3~ + O~2~ (1) has been investigated theoretically by using the MP2, G2, G2Q, QCISD, QCISD(T), CCSD(T), CASSCF, and CASPT2 methods with various basis sets. The results show that the reaction pathway can be divided in two different parts at the M

The reaction of OH radicals with olefins is known to be important in atmospheric chemistry. From experimental data a global mechanism has been proposed, but the regioselectivity of the products is uncertain. In this work, the OH-propene-O 2 reaction has been studied with ab initio molecular orbital

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## Abstract We report variational transition‐state theory calculations for the OH + O~3~→ HO~2~ + O~2~ reaction based on the recently reported double many‐body expansion potential energy surface for ground‐state HO~4~ [Chem Phys Lett 2000, 331, 474]. The barrier height of 1.884 kcal mol^−1^ is comp

## 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