Kinetics of the gas-phase reactions of the OH radical with (C2H5)3PO and (CH3O)2P(S)Cl at 296 ± 2 K

## Abstract The gas phase reaction kinetics of OH with three di‐amine rocket fuels—N~2~H~4~, CH~3~NHNH~2~, and (CH~3~)~2~NNH~2~—was studied in a discharge flow tube apparatus and a pulsed photolysis reactor under pseudo‐first‐order conditions in [OH]. Direct laser‐induced fluorescence monitoring of

## 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

CF 3 CF 2 CH 2 OH is a new chlorofluorocarbon (CFC) alternative. However, there are few data about its atmospheric fate. The kinetics of its atmospheric oxidation, the OH radical reaction of CF 3 CF 2 CH 2 OH, has been investigated in a 2-liter Pyrex reactor in the temperature range of 298 ϳ 356 K u

## Abstract The rate constants, __k__~1~, of the reaction of CF~3~OC(O)H with OH radicals were measured by using a Fourier transform infrared spectroscopic technique in an 11.5‐dm^3^ reaction chamber at 242–328 K. OH radicals were produced by UV photolysis of an O~3~–H~2~O–He mixture at an initial

Using a relative rate technique, rate constants for the gas-phase reactions of the OH radical with the three cresols and the six dimethylphenols have been determined a t 296 t 2 K and atmospheric pressure. The rate constants for the cresols, which range from 4.3 x lo-" cm3 molecule-' s-' to 6.8 x lo

## Abstract Rate constants were determined for the reactions of OH radicals with halogenated cyclobutanes cyclo‐CF~2~CF~2~CHFCH~2~(__k__~1~), __trans__‐cyclo‐CF~2~CF~2~CHClCHF(__k__~2~), cyclo‐CF~2~CFClCH~2~CH~2~(__k__~3~), __trans__‐cyclo‐CF~2~CFClCHClCH~2~(__k__~4~), and __cis__‐cyclo‐CF~2~CF