S=N versus S~+-N~-: An Experimental and Theoretical Charge Density Study

摘要

To elucidate the bonding situation in the widely discussed hypervalent sulfur nitrogen species, the charge density distributions (r) and related properties of four representative compounds, methyl(diimido)sulfinic acid H(NtBu)_2SMe (1), methylene-bis(triimido)sulfonic acid H_2C{S(NtBu)_2 (NHtBu)}_2 (2), sulfurdiimide S(NtBu)_2 (3), and sulfurtriimide S(NtBu)_3 (4), were determined experimentally by high-resolution low-temperature X-ray diffraction experiments (T = 100 K). This set of molecules represents an ideal frame of reference for the comparison of SN bonding modes, because they contain short formal S=N double bonds as well as long S-N single bonds, some of them influenced by inter- or intramolecular hydrogen bonds. For comparison, the gas-phase ab initio calculations of the four model compounds, H(NMe)_2SMe, H_2C{S(NMe)_2(NHMe)}_2, S(NMe)_2, and S(NMe)_3, were performed. The topological features were found to be not particularly sensitive with respect to different substituents R (R = H, Me, tBu). In this paper, it is documented that theory and experiment differ in the eigenvalues of the Hessian matrix because of systematically differing positions of the bond critical points but agree very well concerning the spatial Laplacian distribution and the distinct polarization of all investigated sulfur-nitrogen bonds. Both recommend the S~+-N~- formulation of sulfur nitrogen bonds in 1 and 2 since all nitrogen atoms are found to be sp3 hybridized. The planar SNx (x = 2, 3) units in the diimide 3 and the triimide 4 reveal characteristics of m-center-n-electron systems. For none of the investigated S-N bonds, a classical double bond formulation can be supported. This is further substantiated by the NBO/NRT approach. Valence expansion to more than eight electrons at the sulfur atom can definitely be excluded to explain the bonding.