The protonation of diphosphene (HP=PH) and phosphinophosphinidene (H2P-P): an AB initio study

Self-consislenl-field and con~gur;ltion-inleraction studies have been carried OUI on several isomeric forms of [he H,P, molecule in their closed-shell. n-a\* niplet. and --T\* u-ipler sra~.. Properlies determined for each slate include the relative energy. molecular geometry. dipole moment. and vibr

The energy difference between the HzCN\*-N2 comples and its components, H2CN\* 2nd N2. has been ulculated PS 89 and 6-4 kcal/mol by ab initio SW calculations employing the 4-31G and 6-31G\*\* basis sets. These ~AICS agree with the previously estimated heat of formation of 7.65 kul/mol. The reaction

Ab initio calculations are used to examine the energetics for the reaction of FO radicals and H,O. Optimized geometries have been calculated for all reactants, transition states, and products at the unrestricted second-order Msller-Plesset perturbation level of theory. Both Msller-Plesset perturbati

The geometries of HN=CH2, HP=CH? and their fluorinated species were optimized at the SCF HF and MP2 levels using the GAUSSIAN 82 program (6-3 IG\*\* basis set). The structural effect of fluorination on the double bonds is compared with available experimental data.

Equilibrium geometries of PFs (D& PF; (Oh) and PIF: (Did and Dbb) were determined on the SCF level employing extended basis sets. Total energies of anions and the corresponding neutral systems were calculated. The anions PF; and P2 FL are stable with respect to dissociation into PFs+ F-(92.6 kcal/mo