Synergistic σ/π-Hole Interactions Directing Supramolecular Assembly: Tellurium···Platinum Chalcogen Bonding Enhanced by π-Stacking
Anastasiya A. Busygina, Anastasiya A. Eliseeva, Anton V. Rozhkov, Daniil M. Ivanov, Rosa M. Gomila, Antonio Frontera, Nadezhda A. Bokach, Vadim Yu. Kukushkin
Abstract
This study investigates the synergistic effects of σ- and π-hole interactions in directing supramolecular assembly, focusing on unusual Te II ···Pt II chalcogen bonding enhanced by π-stacking. Three novel cocrystals were synthesized and characterized, combining the dithiocarbamate complexes [Pt(ppy)(S 2 CNC 6 H 12 )] and [Pt(ppy)(S 2 CNC 4 H 8 )] (where ppyH = 2-phenylpyridine) with the tellurium(II)-based mixed σ/π-hole donors Te(C 5 F 4 N-4) 2 and Te(C 6 F 4 CF 3 -4) 2 . X-ray crystallography revealed a diverse array of noncovalent interactions, including two-center Te···Pt and three-center Te···(Pt,S) and Te···(Pt,C) chalcogen bonds, where the σ-Te II -hole interacts directly with the d z 2 -orbital of the positively charged platinum(II) ion. These unusual chalcogen bonds are significantly reinforced by π-stacking between the electron-deficient aromatic rings and platinum complex ligands. This combination of σ- and π-hole-based contacts leads to more robust and diverse supramolecular architectures compared to systems with isolated interactions. Theoretical calculations using QTAIM, NCIPlot, and NBO methods closely interrogated the interplay of these noncovalent forces highlighting the important role of electronic effects in controlling the balance between chalcogen bond and the π-stacking.