AB initio studies of hydrogen exchange and abstraction in the H + CH4 system

The energies of several configurations of the CHg radical (including those of D3h, C4v, and C sym- mctry) have been cnlculntcd with the CNnO/Z method. Low energy paths for unexpcctcd stcrco-c 2 . emlcnl processes. which moy hc important in the reactions of "hot" tritium atoms. are predicted Co exis

## Abstract A direct dynamics study is carried out for the hydrogen abstraction reactions Cl + CH~4−__n__~F~__n__~ (__n__ = 1–3) in the temperature range of 200–1000 K. The minimum energy paths (MEPs) of these reactions are calculated at the BH&H‐LYP/6‐311G(d,p) level, and the energies along the ME

Three hydrogen-bonded minima on the phenol-water, C6H50H-H20, potential energy surface were located with 3-21G and 6-31G\*\* basis sets at both Hartree-Fock and MP2 levels of theory. MP2 binding energies were computed using large "correlation consistent" basis sets that included extra diffuse functi

Ž 3 . Ž 1 . An ab initio study on the reaction of the ground state D and the excited state D of Sc q with methane was performed. Reaction channels on the singlet and triplet potential Ž . surface PES and the reaction mechanism are examined and discussed. Three regions of the potential surface was st

Hydrogen exchange reactions between lithium and sodium compounds, MX (M = Li: X = H, CH3, NH2, OH, F; M = Na: X = CH3), and the corresponding hydrides, HX, have been modelled by means of ab initio calculations including electron correlation and zero point energy (ZPE) corrections. Small or no activa

The hydrogen abstract reactions of OH radicals with HOF (R1), HOCl (R2), and HOBr (R3) have been studied systematically by a dual-level direct-dynamics method. The geometries and frequencies of all the stationary points are optimized at the MP2/6-311+G(2d, 2p) level of theory. A hydrogen-bonded comp