An ab initio study of Si2C protonation

An ab initio study of the low-lying states of protonated Sis was carried out at the HF/6-31G\*\* level. Five states were studied: 'A, ( I), 'A, (2), 'C+, 'A' and 'B,. 'A,(2) and 'Z+ were found to he transition states at the Hanree-Foek level. 'A' and 'B2 are the two possible candidates for the groun

The mechanism of the formation of a2+ ions from b2+ ions occurring during fragmentation of protonated peptides is investigated using quantum chemical methods. The geometries of the stationary structures involved in two possible mechanisms, namely, a two-step mechanism via an open-chain acylium ion a

Systematic ab initio calculations were performed to reveal the mechanism of formation of stable b 2 ions formed during fragmentation of protonated peptides and proteins. Stable oxazolone-type cyclic b 2 ions are formed from parent ions containing the -C(O)-N-C-C(O)-unit in a two-step process. In the

An ab initio LCGO MO SCF calculation using the Roothaan open-shell procedure was carried out on C202. The electronic structure and stability of the molecule is discussed.