Institut für Physikalische und Theoretische Chemie, Universität Tübingen, 72076, Tübingen, Germany.
Dalton Trans. 2010 Mar 21;39(11):2838-41. doi: 10.1039/b924628b. Epub 2010 Feb 5.
Structural and conformational properties of the tetrahalides MX(4) with M = S, Se, Te and X = F, Cl, Br, I were studied with quantum chemical calculations (MP2/aug-cc-pVTZ and relativistic core potentials for heavy atoms). The pseudotrigonal bipyramidal geometries (C(2v) symmetry) of the three tetrafluorides and of TeCl(4), whose structures have been determined by gas electron diffraction, are very well reproduced with this computational method. No additional stable conformer with C(3v), C(S), C(4v) or T(d) symmetry is predicted for these four chalcogen tetrahalides. For all other MX(4) compounds, except SeI(4), the existence of two conformers with C(2v) and T(d) symmetry is predicted. The T(d) structure is favoured in the case of SI(4) and SeBr(4) and SeI(4) is predicted to exist only as T(d) conformer.
使用量子化学计算(MP2/aug-cc-pVTZ 和相对论核势用于重原子)研究了 MX(4)的四卤化物(M = S、Se、Te 和 X = F、Cl、Br、I)的结构和构象性质。三种四氟化物和 TeCl(4)的拟三角双锥几何形状(C(2v)对称性)与气体电子衍射确定的结构非常吻合,这些结构用这种计算方法很好地再现了。对于这四种硫属元素四卤化物,没有预测到具有 C(3v)、C(S)、C(4v)或 T(d)对称性的额外稳定构象。对于除 SeI(4)之外的所有其他 MX(4)化合物,预测存在两种具有 C(2v)和 T(d)对称性的构象。在 SI(4)和 SeBr(4)的情况下,T(d)结构是有利的,并且预测 SeI(4)仅以 T(d)构象存在。
