Kinetics and mechanism of the reaction of Cl atoms with HO2 radicals

The rate constant for the reaction of OH radicals with pinonaldehyde has been measured at 293 Ϯ 6 K using the relative rate method in the laboratory in Wuppertal (Germany) using photolytic sources for the production of OH radicals and in the EUPHORE smog chamber facility in Valencia (Spain) using th

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 reaction between H and C~3~H~5~ has been studied at 291 K. Exciplex laser flash photolysis at 193.3 nm of hexa‐1,5‐diene‐He mixtures generated both H and C~3~H~5~ ([H] ≪ [C~3~H~5~]), which were detected in time‐resolved mode by resonance fluorescence and absorption spectroscopy, res

## Abstract The reaction of a F atom with an NCO radical was studied at 6‐311+g\* level, using DFT methods. All geometries, vibrational frequencies, and energies of different stationary points were calculated by HF, UMP2, and DFT methods, and the results agreed with the experimental values. The vib

## Abstract Pulse radiolysis techniques were used to measure the gas phase UV absorption spectra of the title peroxy radicals over the range 215–340 nm. By scaling to σ(CH~3~O~2~)~240 nm~ = (4.24 ± 0.27) × 10^−18^, the following absorption cross sections were determined: σ(HO~2~)~240 nm~ = 1.29 ± 0