Computational study on the kinetics and mechanisms for the reactions of HCO with HONO and HNOH

## Abstract The mechanism for the reaction of HCO with HNO has been studied at the G2M level of theory, based on the geometric parameters optimized by the BH&HLYP/6‐311G(d, p) method. There are three direct hydrogen abstraction channels producing (1) H~2~CO + NO, (2) H~2~NO + CO, and (3) HNOH + CO

The dual-level direct kinetics method has been used to investigate the multichannel reactions of C(2)H(5)I + Cl. Three hydrogen abstraction channels and one displacement process are found for the title reaction. The calculation indicates that the hydrogen abstraction from -CH(2)- group is the domina

## Abstract The reactants, products, and transition states of the CH~2~O + NO~2~ reaction on the ground electronic potential energy surface have been searched at both B3LYP/6−311+G(d,p) and MPW1PW91/6−311+G(3df,2p) levels of theory. The forward and reverse barriers are further improved by a modifie

## Abstract The kinetics and mechanism for the reaction of NH~2~ with HONO have been investigated by ab initio calculations with rate constant prediction. The potential energy surface of this reaction has been computed by single‐point calculations at the CCSD(T)/6‐311+G(__3df__, 2__p__) level based

The rate constant for the reaction C1+ CHClO -HC1+ CClO was determined from relative decay rates of CHClO and CH&1 in the photolysis of mixtures containing Clz (-1 torr), CH3Cl (-1 torr), and 0 2 ( 4 . 1 torr) in 700 torr Nz. In such mixtures CHClO was generated in situ as a principal product prior

## Abstract The kinetics and mechanism for the reaction of NH~2~ with HONO~2~ have been investigated by ab initio calculations with rate constant prediction. The potential energy surface of this reaction has been computed by single‐point calculations at the CCSD(T)/6‐311+G(__3df__, __2p__) level ba