Rate constants for the reaction of atomic and molecular bromine with gallium arsenide

Kcccivcd 7 hlarch 1977 The rate constant Ior the rrnction Br + 0~ -BrO + 02 has been mcawrcd over the tempcraturc rdrye 224 to 522 EC in a dxhargc llow systcni ucmk a IKISF spcctrornctcr a~ B detector. Rcsultg, c\pre%scd in the form kr = (3.34 c O-40) X IO-\*' X cxp[ -(978 1. 36)/T] cn13 s-' , arc c

## 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

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

## Abstract The photooxidations of __n__‐butyraldehyde initiated by Cl atom were carried out at room temperature (298 ± 2K) and 1 atm pressure. The rate coefficient for the reactions of Cl atom with __n__‐butyraldehyde was determined as __k__ = (2.04 ± 0.36) × 10^−10^ cm^3^ molecule^−1^ s^−1^ by us

## Abstract A phase‐shift method has been used to determine the rate constant for the reaction of ground state oxygen atoms with HCl over the temperature range of 330–600 K. Oxygen atoms were generated by modulated mercury photosensitized decomposition of N~2~O, and monitored by the chemiluminescen

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