Molecular mechanics andab initio calculations on cyclopentadienyl cations

Allyl cation geometries optimized using an extended version of MMP2, newly parameterized for localized and delocalized classical cations, compare favorably Ž . with those obtained at the MP2 full r6-31G\* level. Hence, the force field should provide good starting structures for ab initio calculation

Force-field calculations are reported for large delocalized cations. The results for the geometries, heats of formation, and -electron densities agree well with Ž . MP2 full r6-31G\* ab initio calculations. Both methods give similar results for the distortion of the carbon skeletons of unsubstituted

The boronic acid functional group has been incorporated into various biologically important compounds. In order to study this class of compounds better with molecular mechanics, five alkyl-and arylboronic acids were calculated using ab initio methods (Spartan) at the RHF/6-31G \* level. MM3 force fi

Ab initio calculations at both the Hartree-Fock and M~ller-Plesset (MP2) levels of theory utilizing various basis sets were carried out on propargyl alcohol and its derivatives. The results of these calculations were used in conjunction with available experimental data in the formulation of an MM3 f

## Abstract The structures of several sulfones, including dimethyl sulfone, methyl ethyl sulfone, methyl vinyl sulfone, and diphenyl sulfone, have been fit with the MM3 force field to existing experimental data from electron diffraction and microwave spectroscopy. The vibrational spectra have also