Gas-phase reactions of Cl atoms with propane, n-butane, and isobutane

chlorine chemistry and hydrocarbon chemistry has taken on new importance in the last few years with the realization that chlorine chemistry may play a more important role in the marine troposphere than previously thought. Measurements of hydrocarbons in the Arctic troposphere in springtime have prov

The laser photolysis-resonance fluorescence technique has been used to determine the absolute rate coefficient for the Cl atom reaction with a series of ethers, at room temperature (298 Ϯ 2) K and in the pressure range 15-60 Torr. The rate coefficients obtained (in units of cm 3 molecule Ϫ1 s Ϫ1 ) a

Rate coefficients have been determined for the reaction of butanal and 2-methylpropanal with NO 3 using relative and absolute methods. The relative measurements were accomplished by using a static reactor with long-path FTIR spectroscopy as the analytical tool. The absolute measurements were made us

Using a relative rate technique, rate constants have been determined for the gas-phase reactions of C1 atoms with the cholorethenes and ethane at 298 t 2 K and 735 torr total pressure of air. Using a rate constant of 1.97 x lo-'' cm3 molecule-' s-l for the reaction of C1 atoms with n-butane, the fol

## Abstract The kinetics and mechanism of the reaction of chlorine atoms with __n__‐butanal and __n__‐pentanal have been investigated in a 142‐L reaction cell coupled to a Fourier transform infrared (FTIR) spectrometer at 298 ± 2 K and at 800 ± 3 Torr. The rate coefficients for Cl + __n__‐butanal a

The relative rate technique has been used to determine the rate constants for the reaction of chlorine atoms with a series of oxygenated organic species. Experiments were performed a t 295 t 2 K and atmospheric pressure of synthetic air or nitrogen. The decay rates of the organic species were measur