Predicted rate constants for the exothermic reactions of ground state oxygen atoms and CH radicals

T h e rate constant for the reaction of ground-state oxygen atoms with methanol has been determined between 297 and 544 K by a phase-shift technique using mercury photosensitized decomposition of N20 to generate oxygen atoms. T h e relative oxygen atom concentration was monitored by the chemilumines

Rate constants have been measured at room temperature for the reactions of Cl atoms with formic acid and with the HOCO radical: Cl ϩ HCOOH !: HCl ϩ HOCO (R1) Cl ϩ HOCO !: HCl ϩ CO (R2) 2 Cl atoms were generated by flash photolysis of Cl 2 and the progress of reaction was followed by time-resolved i

Reactions of HCCCO and NCCO radicals with O 2 have been studied by a combination of pulsed laser photolysis and photoionization mass spectrometry. HCCCO was produced by 193-nm photolysis of methylpropiolate or 3-butyn-2-one, and NCCO was formed by 193-nm photolysis of acetylcyanide. The rate constan

Rate constants for the reactions of C1 atoms and OH radicals with haloalkanes were measured using the relative rate technique. From these values the atmospheric lifetimes of the organics with respect to C1 atoms and OH radicals were calculated. C1 atoms were produced by the photolysis of chlorine ga

Rate constants have been measured for the reactions of four hydrocarbon radicals with O2 in the gas phase at room temperature. Laser flash photolysis was used to generate low concentrations of radicals. A photoionization mass spectrometer followed the radical loss as a function of time. The measured