An IRFTS spectroscopic study of the kinetics and the mechanism of the reactions in the gaseous system, HONO, NO, NO2, H2O

The equilibrium constant, K,, of the reaction NO2 + NO3 + M N z O ~ + M has been determined for a small range of temperatures around room temperature in air at 740 torr by direct spectroscopical measurements of NOz, NOS, and NzOs. At 298 K, K, was determined as (3.73 2 0.61) x lo-'' cm3 molecule-'.

## 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 For Abstract see ChemInform Abstract in Full Text.

## 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 overall rate constant for the reaction between ethylperoxy radicals and nitric oxide has been directly measured by flash photolysis and kinetic spectroscopy. At room temperature the rate constant k 7 = (1.6\* 0.1) X 10' litremole-' F' has been assigned to the reaction C2H502 + NO + CzHsO + NO\*\