Rate constant for the reaction of atomic bromine with ozone

## Abstract The rate constant for the reaction of Br + O~3~ → BrO + O~2~ has been measured at four temperatures from 234 to 360 K by the technique of discharge flow coupled with resonance‐fluorescence detection of bromine atoms. The measured rate constants obey the Arrhenius expression __k__ = (9.4

The gas-phase reaction of ozone with a series of unsaturated oxygenates and with 1-pentene has been studied at ambient T (287-296 K) and atm. of air. Reaction rate p ϭ 1 constants, in units of cm 3 molecule Ϫ1 s Ϫ1 , are for 2 (5H)-furanone, Ϫ18 10 0.22 Ϯ 0.05 for methacrolein, for crotonaldehyde, f

The absolute rate constant of the reaction between NH2 and ozone has been measured using a flash photo&is--laser resonance techmque and found to be 4 = 6.3 (~1.0) X IO-l4 cm3 molecule-' S-I at room temperature. The &hen&s expressIon, determined from measurements in the temperature range 298-380 K IS

The reaction rates of atomic boron with various epovrdes have been measured m a Row tube appnratus. The btmolrcular rate constants, in umts of cm3 molecule-' s'-' ,are l,Z-zpo~ypropane (8.6 X IO-t'), 1,2~poxybutanc (8.8 x IO-"), 1,2,3,4drepo\ybutanc (5.5 X IO-"). I-chloro-2.3epouypropane (5.7 X IO

The gas-phase reaction of ozone with unsaturated alcohols in air has been investigated a t atmospheric pressure and ambient temperature (288-291 K). Cyclohexane was added to scavenge the hydroxyl radical which forms as a product of the ozone-unsaturated alcohol reaction. The reaction rate constants,