Ab initio molecular orbital calculations of the potential energy surfaces for the N(2D)+CH4 reaction

Ab initio molecular orbital calculations have been carried out on the N(D-2) + CH4 reaction in order to obtain information on possible reaction products. Stationary points associated with the product channels and their harmonic vibrational frequencies have been calculated at the MP2(full)/cc-pVTZ level of theory. Barrier heights and heats of reaction have been estimated at the projected MP4(full,SDTQ)/cc-pVTZ level of theory. Among the possible processes considered, the reaction pathways to produce CH2NH + H and CH3 + NH have been found to be important. RRKM calculations have been performed to confirm this result. The saddle point structure in the entrance channel of the N(D-2) + CH4 reaction has also been calculated using the CASSCF method. It has been found that N(D-2) inserts into the C-H bond of CH4, which is qualitatively consistent with recent experimental results.