Abstract
Cocrystallizations of melamine (MA) with 1,5-naphthalenedisulfonic acid (H2NDA) from water in different molar ratios (2:1, 4:1, and 8:1) offer [(HMA+)2(NDA2-)]·4H2O (1), [(HMA+)2(MA)2(NDA2-)]·8H2O (2), and [(HMA+)2(MA)2(NDA2-)]·10H2O (3), respectively. Among them, sulfonic protons are transferred to the triazine nitrogen atoms of MA, furnishing hydrogen-bonded anionic [(NDA2-)·H2O]∞ chains. In 1, the adjacent HMA+ cations form cationic (HMA+)∞ ribbons via pairs of N−H···N hydrogen bonds ( (8) synthon), and the ribbons connect to each other through NDA2- anions as well as lattice water molecules via hydrogen bonds and C−H···π, π···π, and electrostatic interactions to form a 3D structure. In 2 and 3, only half of the MA molecules are protonated, resulting in cationic (MA·HMA+)∞ ribbons via N−H···N hydrogen bonds. In 2, hydrophilic channels (size 3.9 × 6.1 A2) enclosed by the NDA2- anions and (MA·HMA+) cations are found to host a pair of zigzag water chains, which are interlinked through sulfonate oxygen ato...
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