Order versus Disorder in the Cocrystals of m-Halogenopyridines with m-Halogenobenzoic Acids: The Effects of the I···O Halogen Bond

Abstract: A series of nine cocrystals derived from m-halogenobenzoic acids and m-halogenopyridines (XbzacH–X’py, X, X’ = Cl, Br, I) have been crystallized and their crystal structures are determined. All nine cocrystals comprise XbzacH–X’py molecular complexes with the acid carboxyl group hydrogen bonded to the pyridine nitrogen atom. The four cocrystals in which iodine (the strongest halogen bond donor) is absent are isostructural and crystallize in the monoclinic P 21/c space group with the acid–pyridine complexes di… Show more

“…Because of their good compatibility, exchanging Cl and Br atoms in disordered structures often shows little effect on the crystal structure. 38 For 4BC, the large bias in the disorder ratio implies that the type-I interhalogen contact prefers to form between the homologous elements (Fig. S3a †).…”

Active control of molecular stacking types in a congeneric library of dihalogenated salicylideneaniline crystals and their solid solutions

“…Because of their good compatibility, exchanging Cl and Br atoms in disordered structures often shows little effect on the crystal structure. 38 For 4BC, the large bias in the disorder ratio implies that the type-I interhalogen contact prefers to form between the homologous elements (Fig. S3a †).…”

Active control of molecular stacking types in a congeneric library of dihalogenated salicylideneaniline crystals and their solid solutions

Selective Self‐Assembly of Supramolecular Helices and Macrocycles Directed by Halogen Bonding