Mesitylpseudohalogermanes Mes 2Ge(CN) 2 and Mes 3GeX (X=CN, NCS, N 3, NCO and OH; Mes=2,4,6-trimethylphenyl): syntheses, crystal and molecular structures

Abstract

The crystal and molecular structures of the mesitylpseudohalogermanes, Mes 2Ge(CN) 2 (Mes=2,4,6-trimethylphenyl) and Mes 3GeX (X=CN, NCS, N 3, NCO, or OH), have been determined by X-ray diffraction methods; the isocyanate and hydroxide crystallise as a 1:1 hydrogen-bonded complex. All are covalent monomers free from pseudohalogen bridging, and all except the cyanides and hydroxide are N-bonded to germanium. Each Ge atom is four-coordinate in a distorted tetrahedral geometry, as evident from (mes)Ge(mes) angles between 112 and 120°, which are attributed to the sterically demanding mesityl groups. The greatest distortion is displayed by Mes 2Ge(CN) 2, for which the NCGeCN angle of 97.8(3)° and (mes)Ge(mes) angle of 119.8(3)° are also consistent with the bulky mesityl groups and the small steric requirements of the cyano groups. The GeNY angles show a distinctive trend, decreasing from 173.3(5)° for the isothiocyanate (Y=CS), through 153.5(5)° for the isocyanate (Y=CO), to 119.0(7)° for the azide (Y=NN), an effect attributed to differences in electronic structure of the pseudohalo ligands. The geometries of the compounds examined here are compared with those of some other tri- and dimesityl-Group 14 metal derivatives as well as related phenylgermanium compounds.