Issue 13, 1997

Chemical bonding in oxofluorides of hypercoordinate sulfur

Abstract

Modern valence bond theory, in its spin-coupled form, is used to investigate the bonding in sulfuryl fluoride, SO 2 F 2 , and in the thionyl fluorides, SOF 2 and SOF 4 . Analogous calculations are also carried out for SO 2 , SO 3 and SF 4 , to enable various comparisons to be made. We find that the sulfur atoms in these systems utilize all six valence electrons in two-centre two-electron polar covalent bonds and in angularly split lone-pair-like orbitals. Although based on just a single orbital configuration, the spin-coupled wavefunction provides a significant energy improvement over the corresponding restricted Hartree–Fock calculation. The spin-coupled description of the S[double bond, length as m-dash]O and S–F bonding, and of the non-bonding electrons on sulfur, turns out to be highly transferable. We find that the S–O π bonds are significantly more polar than the S–O σ bonds. We find no evidence to support notions of p π –d π back-donation from oxygen to sulfur. We examine also the ‘equivalent’ or ‘bent-bond’ model of the SO units in the thionyl fluorides.

Article information

Article type
Paper

J. Chem. Soc., Faraday Trans., 1997,93, 2247-2254

Chemical bonding in oxofluorides of hypercoordinate sulfur

T. P. Cunningham, D. L. Cooper, J. Gerratt, P. B. Karadakov and M. Raimondi, J. Chem. Soc., Faraday Trans., 1997, 93, 2247 DOI: 10.1039/A700708F

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