par Berger, Gilles 
;Soubhye, Jalal ;Wintjens, René ;Robeyns, Koen;Meyer, Franck
Référence Acta Crystallographica Section B: Structural Science, Crystal Engineering and Materials, 74, 6, page (618-627)
Publication Publié, 2018-12-01
;Soubhye, Jalal ;Wintjens, René ;Robeyns, Koen;Meyer, Franck Référence Acta Crystallographica Section B: Structural Science, Crystal Engineering and Materials, 74, 6, page (618-627)
Publication Publié, 2018-12-01
Article révisé par les pairs
| Résumé : | The supramolecular assembly of halogenated and hydroxyl hydrazones derived from two well known pharmaceuticals, isoniazid (IsX, where X = I, Br, OH) and hydralazine (HyX, where X = I, Br, OH), was studied by X-ray crystallography and theoretical methods. Crystal packing of IsI and HyI shows weak I…N and I…π halogen bonds, whereas the hydrogen bonds are dominant in the brominated scaffolds IsBr and HyBr. Although the calculated I…N interaction strength appears almost three times weaker than the O—H…N contacts in the isoniazid-based hydrazones, the higher directionality of the halogen bonds induces a linear and planar architecture of self-complementary tectons, observed only with the help of a bridging water molecule in the case of IsOH. Finally, the X-ray structure of HyOH is characterized by an unexpected linear arrangement of clathrated dichloromethane molecules bound through type I and II halogen bonds. This rare phenomenon, observed in less than ten structures, was studied by coupled cluster-based energy decomposition. |
