Acta Crystallographica Section E: Crystallographic Communications (Dec 2018)
2-{[2,8-Bis(trifluoromethyl)quinolin-4-yl](hydroxy)methyl}piperidin-1-ium trichloroacetate: crystal structure and Hirshfeld surface analysis
Abstract
The asymmetric unit of the centrosymmetric title salt, C17H17F6N2O+·C2Cl3O2−, comprises a single ion-pair. The hydroxy-O and ammonium-N atoms lie to the same side of the cation, a disposition maintained by a charge-assisted ammonium-N—H...O(hydroxy) hydrogen bond [the Oh—Cm—Cm–Na (h = hydroxy, m = methine, a = ammonium) torsion angle is 58.90 (19)°]. The piperidin-1-ium group is approximately perpendicular to the quinolinyl residue [Cq—Cm—Cm–Na (q = quinolinyl) is −178.90 (15)°] so that the cation, to a first approximation, has the shape of the letter L. The most prominent feature of the supramolecular association in the crystal is the formation of chains along the a-axis direction, being stabilized by charge-assisted hydrogen-bonds. Thus, ammonium-N+—H...O−(carboxylate) hydrogen bonds are formed whereby two ammonium cations bridge a pair of carboxylate-O atoms, leading to eight-membered {...O...HNH}2 synthons. The resulting four-ion aggregates are linked into the supramolecular chain via charge-assisted hydroxyl-O—H...O−(carboxylate) hydrogen bonds. The connections between the chains, leading to a three-dimensional architecture, are of the type C—X...π, for X = Cl and F. The analysis of the calculated Hirshfeld surface points to the importance of X...H contacts to the surface (X = F, 25.4% and X = Cl, 19.7%) along with a significant contribution from O...H hydrogen-bonds (10.2%). Conversely, H...H contacts, at 12.4%, make a relatively small contribution to the surface.
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