Crystal and electronic structures of superhard B2CN : An ab initio study

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

The structure of the diboroxane H2B-O-BH2 has been studied by means of ab initio calculations at the MP4/6-311G\*\*// MP2/6-31 IG\*\* level. Two minima have been characterized on the potential energy surface (PES): one is of DEd symmetry, analogous to the isoelectronic allene molecule, and the other

The present paper represents the first part of an extensive theoretical study on the electronic spectrum of B 2 H 2 . The results of ab initio calculations of the vertical spectrum and the trans-and cis-bending potential curves for the lowlying triplet and singlet electronic states are reported. Spe

The results of ab initio calculations of the potential curves for the torsional motion, symmetric H-B stretching, and B-B stretching in low-lying valence-and Rydberg-character triplet and singlet electronic states of B 2 H 2 are reported. Particularly, the dissociation process B 2 H 2 r BH / BH out