Exploring the potential energy surface for the H2 + H → H + H2 reaction with ab initio and density functional theory methods

The reaction energy profile for H q OH ¬ H q H O was computed 2 2 using HF, MP2, MP4, QCISD, G1, G2, and G2MP2 ab initio methods. In addition, the Ž . B3LYP, B3P86, B3PW91, BLYP, BP291, and SVWN density functional theory DFT methods were also used. All the ab initio methods, with the exception of th

Preliminary results of ab initio unrcstiictcd Hnrtree-Fock calculations for the potential enerfiy surfact for the reaction N' + Hz + Nil+ + H ae reported. For the collinear approach of Nf to Hz, the 3 - x surface has no activation barrier and has a shallow well (n. 1 eV). For perpendicular approach

The poteniiaI surface for the reaction H,CN+H\* -HCN+H + Hz has been studieu by ab initio SCF calculations, using gaussian-type basis functions. A saddle point on the surface has been found, and a reaction path is proposed to explain the observed reIease tii kinetic energy.

An ab initio MP4 study has been made of the potential energy surface of the H + OCS reaction. Minima and saddle points leading to formation of OH +CS or SH + CO were found. Stationary points were located using the 6-31 G# basis set at the ROHF and UMP2 levels of theory, with energy refinements at th