Temperature dependence of the reactions of CH radicals with NO, NH3 and N2O in the range 200–1300 K

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

The hinetics of the reactions of the (CI13)2K rrtduxl wthX0.N02,and O2 rrere studied usins FTIR spectroscopy. The tutwe of the products and the ratio ofr.~tc constants for these reactions acre dctermmed\_ The results were used to evalu.rte the potenti.n for nitros.unine .md nitramine formation in X0

Absolute rate coefikients for the reaction of NC0 radicals with NO were measured in the temperature range between 294 and 1260 K and the pressure range between 6 and 170 Torr in a heatable quartz reactor by means of the laser photolysis/laser-induced fluorescence technique. NC0 radicals were produce

The thermal reaction of CHzO with NO2 has been investigated in the temperature range of 393-476 K by means of FTIR product analysis. Kinetic modeling of the measured CH20, NO, CO, and CO, concentration-time profiles under varying reaction conditions gave rise to the rate constants for the following

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The rate coefficients for the gas-phase reactions of C,H,O;, and n-C3H,0, radicals with NO have been measured over the temperature range of (201 -403) K using chemical ionization mass spectrometric detection of the peroxy radical. The alkyl peroxy radicals were generated by reacting alkyl radicals w