Systematic study on anion–cation interactions via doubly ionic H-bonds in 1,3-dimethylimidazolium salts comprising chalcogenolate anions MMIm [ER] (E = S, Se; R = H, tBu, SiMe3)†‡
Abstract
We present convenient syntheses of so far inaccessible, crystalline and highly pure 1,3-dialkylimidazolium salts with extremely nucleophilic thiolate and selenolate anions [ER]− (R = H, tBu, SiMe3). While non existent for E = O, the title compounds exist as slightly less basic E = S and Se homologues. The anion cation H-bond interactions in the crystalline state have been studied systematically in six related ionic compounds of varying anion basicity and steric bulk, namely MMIm [SH] (1), MMIm [StBu] (2), and MMIm [SSiMe3] (3), as well as MMIm [SeH] (4), MMIm [SetBu] (5) and MMIm [SeSiMe3] (6). The chalcogenolate title compounds 3, 5, and 6 are prepared by the newly introduced method of desilylation of Me3Si-ER (E = S, Se) by the super-nucleophile MMIm [StBu] (2), which is easily accessible via deprotonation of HStBu with in situ generated NHC 1,3-dimethylimidazolidin-2-ylidene. Focus is put on the role of the most acidic imidazolium proton C2–H as structural director and as 1H NMR shift indicator. These salts show an unusually high volatility and tendency to sublime under vacuum without irreversible decay.