RELATIVISTIC ELECTRONIC-STRUCTURE OF STAGGERED AND ECLIPSED CONFORMATIONS OF OCTACHLORODIOSMATE(III)
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1991
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Abstract
Symmetry-adapted angular momentum basis functions have been generated for the D4d* and D4h* molecular double point groups. These basis functions are used to obtain the relativistic molecular orbitals for the staggered (D4d) and eclipsed (D4h) rotameric geometries of octachlorodiosmate(III) via the self-consistent field Dirac Scattered-Wave (SCF-DSW) method. Double-point-group symmetry arguments and relativistic molecular orbital calculations for the Os2Cl8(2-) ions indicate that the molecular orbitals involving the sigma, pi, delta, and delta* metal-metal bond components remain nondegenerate in both conformations. Spin-orbit interaction splits the pi-bond component of both conformers by about 0.35 eV and removes the orbital degeneracy involving the delta and delta* bond components of the staggered conformer. Double-point-group arguments and the results of DSW calculations on the staggered conformer allow us to reassign the two lowest absorption bands seen in the visible spectrum as being primarily metal-metal based.