Interdependence of structure and physical properties in co-crystals of azopyridines

To establish how intermolecular interactions influence the supramolecular assembly of azopyridines, a total of five co-crystals of 3,3' and 4,4'-azopyridine; 3,3'-azpy: succinic acid (3,3'-azpy: SA), 3,3'-azpy: adipic acid (3,3'-azpy: AA), 3,3'-azpy: suberic acid (3,3'-azpy: SuA), 3,3'-azpy: sebacic acid (3.3'-azpy: SeA), and 4,4'-azpy: suberic acid (4,4'-azpy: SuA) were synthesized. In all co-crystals of 3,3'-azopyridine, there are infinite 1-D zig-zag tapes composed of alternating 3,3'-azpy and diacids held together by COOH center dot center dot center dot N(py) hydrogen bonds. Neighbouring chains are arranged into 2-D sheets via secondary inter-chain C-H center dot center dot center dot O interactions between azopyridine ring hydrogen atoms and carbonyl oxygen atoms in an in-phase manner. However, in the co-crystal of 4,4'-azopyridine: suberic acid, the adjacent chains form 2-D sheets in an out-of-phase motif via two types of inter-chain C-H center dot center dot center dot O interactions, i.e. between azopyridine ring hydrogen atoms and carbonyl oxygen as well as hydroxyl oxygen atoms. The structural consistency within the 3,3'-azopyridine co-crystals has made it possible to establish a correlation between melting point of the homomeric molecular solids and co-crystals of the corresponding carboxylic acids.