Kinetics of the reaction Cl + NO2 + M

The third order r a t e coefficients for t h e addition reaction of C1. with NOz, C1 + NOz + M-, CINOz (ClONO) + M; K,, were measured to be k,(He) = (7.5 t 1.1) x cm6 molecule-2s-1 a t 298 K using the flash photolysis-resonance fluorescence method. The pressure range of the study was 15 to 500 torr

## Abstract The kinetics of iodine dioxide (OIO) reactions with nitric oxide (NO), nitrogen dioxide (NO~2~), and molecular chlorine (Cl~2~) are studied in the gas‐phase by cavity ring‐down spectroscopy. The absorption spectrum of OIO is monitored after the laser photodissociation, 266 or 355 nm, of

## Abstract The kinetics of the reaction between NO~2~ and ([14]aneN~4~)Ni^2+^ were determined by laser flash photolysis. The NO~2~ was generated in two independent reactions, one of which is based on the photochemistry of (NH~3~)~5~CoNO~2~^2+^, and the other on the photochemistry of HNO~2~/NO~2~^−

## 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

The total rate constant for the reaction of CI atoms with H 0 2 N 0 2 was found to be less than 1.0 x cm3 5-l a t 296 K by the discharge flowiresonance fluorescence technique. The reaction was also studied by the discharge flowimass spectrometric technique. k , , + klb was measured to be (3.4 f 1.4)

The kinetics and mechanism of the reaction Cl ϩ HO 2 : products (1) have been studied in the temperature range 230-360 K and at total pressure of 1 Torr of helium using the discharge-flow mass spectrometric method. The following Arrhenius expression for the total rate constant was obtained either fr