Aspects of the CH5N2 potential energy surface: ions CH3NHNH+, CH3NNH2+ and CH2NHNH2+ and radicals CH2NHNH2 studied by theory and experiment

## Abstract A direct dynamics study was carried out for the multichannel reaction of CH~3~NHNH~2~ with OH radical. Two stable Conformers (I, II) of CH~3~NHNH~2~ are identified by the rotation of the CH~3~ group. For each conformer, five hydrogen‐abstraction channels are found. The reaction mechani

## 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

The rate of the reaction CH212 + H I 2 CH,I + I , has been followed spectrophotometrically from 201 .O to 31 1 .Z0. The rate constant for the reaction I + CH,I, CH,I + I, fits the equation, log (k,/M-'sec-') = 11.45 f 0.18 -(15.11 f 0.44)/0. This value, combined with the assumption that E2 = 0 & 1 k

Ab initio calculations at the [QCISD(T)/6-31 +G(Zdf, p)]//MP2/6-31G(d) level have been applied to CH$CH200, a radical which is thought to be important in the atmospheric oxidation of dimethylsulfide. The geometries of CH3SCH200 and the related CI-ISSCH20 radical are similar to other organic 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