AI Article Synopsis
- The study investigates crystallization conditions for metal-organic frameworks (MOFs) using two complexes: zinc bromide and zinc chloride derivatives of a triazine derivative.
- The bromide structure underwent a phase transition when cooled from 299K to 100K, changing from orthorhombic to monoclinic symmetry, which involved conformational changes.
- Key interactions stabilizing the crystal packing include hydrogen bonds, aromatic π-stacking, and various intramolecular contacts involving halide ligands and nitrogen atoms.
Article Abstract
During the course of exploring crystallization conditions in generating metal-organic frameworks (MOFs) for use in the crystalline sponge method, two discrete metal-organic complexes, namely, aqua[2,4,6-tris(pyridin-4-yl)-1,3,5-triazine]zinc(II) bromide, [Zn(CHN)(HO)]Br, and aqua[2,4,6-tris(pyridin-4-yl)-1,3,5-triazine]zinc(II) chloride, [Zn(CHN)(HO)]Cl, were encountered. Structures in the orthorhombic space group Pnma (No. 62) for the bromide congener at 299 K and the chloride congener at 100 K were obtained. A phase transition for the bromide congener occurred upon cooling from 299 to 100 K, yielding a crystal polymorph with four domains that exhibits monoclinic P2/m space-group symmetry (No. 11), which arises from conformational changes. The main intramolecular contacts that contribute to the crystal packing in all observed structures are H...H, Halide...H/H...Halide, C...H/H...C, and N...H/H...N. Intramolecular hydrogen bonding between the Zn-bound water and non-Zn-bound pyridyl N atoms is a prominent feature within the three-dimensional networks. Aromatic π-stacking between the non-Zn-bound pyridine rings and contacts involving the halide ligands further stabilize the crystal packing.
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| http://dx.doi.org/10.1107/S205322962400737X | DOI Listing |
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