The temperature dependence of the UV spectra of the HO2 and CH3O2 radicals

## 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

The reaction of NO with the peroxy radical CFC12CH202, and with CH3CFClO2 was investigated at 8-20 torr and 263-321 K by UV flash photolysis of CFCI2CH3/O2/NO gas mixtures The kinetics were determined from observations of the growth rate of the CFC12CH20 radical and the decay rate of NO by time-reso

## Abstract A direct kinetics study of the temperature dependence of the CH~2~O branching channel for the CH~3~O~2~ + HO~2~ reaction has been performed using the turbulent flow technique with high‐pressure chemical ionization mass spectrometry for the detection of reactants and products. The temper

Electronically excited OH (A 'C l , v=O) products were studied in the 210 to 290 nm photolysis of the reacting system CH, t 02+CH,02. The excitation spectrum is discussed in terms of formation of 0H(A22+, u=O) and OH(X %, u=O) from CH,O, and CH(X ZII) from CH+ Simplified systems of known reactions a

The tcmpcraturc dcpcndcncc of the rate constant for the rcactron HO? + HO2 -HzOz + O2 (Zk I ) 1135 been dctcrmmcd usmg flash photolysls tcchniqucs. over 1hc rcmpcrarurc rsngc 298-51OK, III 3 mlrogcn dducnt at a IOLII prcs~rc of 700 TOIL The overall second order state constant ~sg~ven by kl = (4.14 i