The reaction between isotopically labelled methyl radicals and methane

The rate of CHI disappearance in a shock-heated CHI: Dz: Ar = 9.70: 9.86: 80.44 mixture was monitored by coincidence absorption of the 2948 cm-I He-Ne laser line over the shockfront temperature range of 1900-2300K. Comparison with CHr pyrolysis results by means of computer simulations suggested that

The energetics of the reactions of FO radicals with methane is examined using ab initio molecular methods. The best estimate of the heat of reaction mzO is 4.2 f 2 kcal mol -' and AiY$ is 16.1+ 2 kcal mol -' calculated at the QCISD(T) /6-311+ +G( 2df, 2p) level of theory. The atmospheric implication

For the 'title reaction, the pressure dependent rate coefficients were studied at 298 K using two complementary experimental techniques. Pulse radiolysis combined with UV absorption was employed at pressures between 500 and 1000 mbar, while a fast-flow system with a quadrupole mass spectrometer (at

The kinetics of the reaction CH,+OH (+M)dCH,OH (+M) was studied at room temperature by pulse radiolysis of SF,/ CHJH# mixtures. The methyl radical decay was followed by monitoring the UV absorption signals at 216.4 nm. A pressure dependence of k, was observed with values ranging from (5.8 kO.3) x 10

The activation energy and optimized transition-state geometry for the abstraction of a hydrogen atom from methane by methyl radical have been calculated by the semiempirical methods MIND0/3 and MNDo. These results are compared with other semiempirical and ab initio results. The MINDO/3 method, based