The Reaction of Cl with CH4: A Connection Between Kinetics and Dynamics

The kinetics of the reactions CH,O + CI + H,CO + HCI ( 1 ) and CH,O + ClO -+ H,CO + HOCl ( 2 ) have been studied using the discharge-flow techniques CH,O was monitored by laser-induced fluorescence, whereas mass spectrometry was used for the detection or titration of other species. The rate constant

## Abstract The kinetic isotope effects in the reaction of methane (CH~4~) with Cl atoms are studied in a relative rate experiment at 298 ± 2 K and 1013 ± 10 mbar. The reaction rates of ^13^CH~4~, ^12^CH~3~D, ^12^CH~2~D~2~, ^12^CHD~3~, and ^12^CD~4~ with Cl radicals are measured relative to ^12^CH~

The kinetics and mechanism of the gas-phase reaction of CI atoms with CH,CO have been studied with a fTIR spectrometer/smog chamber apparatus. Using relative rate methods the rate of reaction of CI atoms with ketene was found to be independent of total pressure over the range 1-700 torr of air dilue

## Abstract The rate coefficients for the reactions of Cl atoms with CH~3~Br, (__k__~1~) and CH~2~Br~2~, (__k__~2~) were measured as functions of temperature by generating Cl atoms via 308 nm laser photolysis of Cl~2~ and measuring their temporal profiles via resonance fluorescence detection. The m

The rate constant for the reaction C1+ CH, 1 , CH3 + HCl has been determined over the temperature range of 200"-500"K using a discharge flow system with resonance fluorescence detection of atomic chlorine under conditions of large excess CH4. For 300" > 7' > 200°K the data are best fitted to the exp

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