AB initio study of methyl substituted allyl cations

The electric dipole moment surfaces for the ground electronic states of the ammonia cation \(\mathrm{NH}_{3}^{+}\)and the methyl cation \(\mathrm{CH}_{3}^{+}\)were calculated pointwise using multireference configuration interaction wavefunctions obtained from energy optimizations at the correspondin

The geometries and vibrational frequencies of MgO +, Mg2 O+, and Mg3 O+ were calculated using high level ab initio and density functional theories. Mg20 + (D~h, 2E~ ) is linear while the planar T-shaped (C2v, 2B2) and Y-shaped (C2v, 2Aj ) Mg30 + structures are essentially degenerate. MgO ÷, Mg20 + a

Ab initio calculations are performed for AgNH 3 and Ag+NH3 at the MP2 level of theory. The equilibrium structures show C3v symmetry, the Ag-NH 3 (Ag+-NH3) stabilization energy is 0.20 eV (2.00 eV). The frequencies of the silver-ammonia stretching and bending vibrations are calculated. The theoretica

Complexes of benzene with ammonium cations (Me,H(4\_ n)N + for n = 0-4) were studied using ab i nitio calculations with electron correlation included. The most stable structures and binding energies of the complexes are reported. The calculated binding energies are in good agreement with experiment.