A bound HCl− species: an ab initio quantum-chemical study

The ab initio MO-LCAO-HF method has been used to calculate the electronic structure of the iodine-polyphenylacetylene charge-transfer complex (PPA-I\*). Two models have been considered for the PPA molecule: a simple one containing two phenyl groups and a more realistic one containing six phenyl grou

## Abstract An __ab initio__ quantum mechanical charge field (QMCF) molecular dynamics simulation has been performed to study the structural and dynamical properties of a dilute aqueous HCl solution. The solute molecule HCl and its surrounding water molecules were treated at Hartree‐Fock level in c

Ab initio calculations have been performed at various levels on the SiHS hypervalent radical in Ds, and C& symmetry. Optimization at UHF and UMP2 are presented for these structures and show that both of them are neither stable nor metastable species. The calculation of a potential energy surface at

The Brandi reaction is the transformation of spiro[cyclopropane-1,5Ј-isoxazolidines] into tetrahydropyridones under thermal conditions. According to calculations performed by the restricted and unrestricted density functional theory and post-Hartree-Fock single-and multireference methods of ab initi

A new structure for the surface complex of water on bridged hydroxyl sites is proposed which is stabilized by two hydrogen bonds. The energy for the formation of a surface hydronium ion is estimated to be 0.5f 20 kJ/mol. Tbis conclusion is based on quantum-chemical ab initio SCF calculations (DZP ba