Rate constants for the reactions of CN with hydrocarbons at low and ultra-low temperatures

A study was conducted to measure the hydroxyl radical rate constants using a relative rate procedure in which the photolysis of methyl nitrite was the source of OH. During the course of this study, the OH rate constant was measured for a number of chlorinated solvents for which measurements have not

Rate constants for the reaction of CN( u= 0) with Cl,, FZ and O2 have been measured. CN radicals were generated by photolysis of C2Nz with pulsed radiation at 193 nm. Laser-induced fluorescence (LIF) was used to monitor the decay profiles of CN radical concentrations. The valuesobtainedare: k(CN/CI?

Rate constant ratios of the reactions of CFsO radicals with a number of hydrocarbons have been determiued at 298 + 2 K and atmospheric pressure using a relative rate method. Using a previously determined value k(CF,O+ CsHs) = I .2 x lo-i2 cm3 molecule-' s-i these rate constant mtios,provide estimate

Absolute rate constants hav-e been measured for the reaction of SiH, with N,O at temperatures between 295-747 K. The rate constantsarefittedto the Arrheniusequation: log( k/cm' molecule-' s-l) = ( -12.09+0.04) t (2.02?0.31) kJ mol-'JRTln IO. The data are plausibly consistent with a mechanism involv

Using a relative rate method, rate constants have been determined at 296 5 2 K for the gas-phase reactions of the OH radical with toluene, the xylenes, and the trimethylbenzenes. Using the recommended literature rate constant for the reaction of OH radicals with propene of (2.66 2 0.40) x lo-" cm3 m

The kinetics of the reaction of 0 atoms with NO2 was investigated in the temperature range 199-357 K. The value of the rate constant can be expressed by k, = (5.21 kO.50) x lo-'\* exp [(202\*27)lT] cm3 s-' (3~ error). At temperatures below 230 K, the formation of equilibrium concentrations of N204 a