Steric and electronic effects on Si-Ge bond lengths: An experimental and theoretical structural study of Me2Ge(SiCl3)2 and Me3GeSiCl3

The molecular structures of dimethylbis(trichlorosilyl)germane [Me₂Ge(SiCl₃)₂] and trimethyl(trichlorosilyl)germane (Me₃GeSiCl₃) have been determined in the gas phase. Me₃GeSiCl₃ was found ab initio to possess C_3v symmetry, with a low-lying torsional motion of the SiCl₃ group relative to the GeMe₃ group. The gas electron diffraction data were modelled with C₃ symmetry, although little deviation from C_3v symmetry was observed. Me₂Ge(SiCl₃)₂ (C_2v symmetry) was also found to have a very low-lying vibrational frequency relating to the rotation of the SiCl₃ groups. This led to the gas electron diffraction data being modelled in C₂ symmetry, with the observed combined deviation of the SiCl₃ groups being 14° from the eclipsed structure calculated ab initio. The Ge-C bond lengths were unaffected by the addition of an extra SiCl₃ group to the central germanium atom, but the Ge-Si bond lengths were observed to increase by over 1 pm.