An ab initio molecular orbital study of the CH2O+− isomers: The stability of the hydroxymethylene radical cation

Kcccivud 4 Ocrobcr I97 3 Gaussian orbital calculations 01. the ESR coupling consrunts in the PI-2 radical arc prescnred, in cscellcnt agree mcnt with experiment.

## Abstract Thermal motion of CH is investigated by performing an __ab initio__ molecular dynamics method with the second‐order Møller‐Plesset (MP2)/6‐311G\*\* force field. In the trajectories obtained at 400 K, we have observed rapid interconversion behavior of the geometrical parameters of CH wit

A b inztio SCF calculations of the equilibrium geometries have been carried out on nine possible isomers of MHzN2, where M = C or Si, and compared with the results of MNDO calculations. The results for the carbon compounds are in good agreement with available experimental data, but in the case of th

The Jahn-Teller potential energy surface of the cyclobutadiene radical cation is reinvestigated at the CCSD(T)/TZP//RMP2/6-311G(2d, p) level. It is found that out-of-plane deformations come into play as one moves away from the Dab geometry. The relaxed radical cation has two potential energy minima,