Molecular Structure of Silatrane Determined by Gas Electron Diffraction and Quantum-Mechanical Calculations.

The geometry of silatrane HSi(OCH₂CH₂)₃N has been determined by gas electron diffraction, ab initio calculations, and vibrational spectroscopy of crystal. Using the scaled force field from DFT calculations the amplitudes and perpendicular corrections were calculated. It was assumed that the silatrane molecule has C₃ symmetry. The following values (r_g bond lengths in Å and ∠_a bond angles in deg. with three standard deviations from the least-squared refinements using a diagonal weight matrix) are: SiN 2.406(27); NC 1.443(7); OC 1.399(11); SiO 1.648(3); CC 1.504(15); NSiO 78.8(21); SiOC 128.1(11); SiNC 105.4(14); CCO 117.0(26); CCN 108.2(30); CNC 113.2(17); OSiO 116.3(13). The 5-membered rings are flattened. The sum of its bond angles is equal to 537.5(42). It is shown that a very large difference is found for Simath>N distance from ab initio and DFT calculating. [ABSTRACT FROM AUTHOR]