Crystal structures, phase transition, and Hirshfeld surface analyses of the bromide and chloride congeners of aqua[2,4,6-tris(pyridin-4-yl)-1,3,5-triazine]zinc(II) halide.
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引用次数: 0
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(C18H12N6)(H2O)]Br2, and aqua[2,4,6-tris(pyridin-4-yl)-1,3,5-triazine]zinc(II) chloride, [Zn(C18H12N6)(H2O)]Cl2, 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 P21/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.
在探索用于结晶海绵法的金属有机框架(MOFs)的结晶条件过程中,发现了两种离散的金属有机配合物,即水合[2,4,6-三(吡啶-4-基)-1,3,5-三嗪]溴化锌(II)[Zn(C18H12N6)(H2O)]Br2 和水合[2,4,6-三(吡啶-4-基)-1,3,5-三嗪]氯化锌(II)[Zn(C18H12N6)(H2O)]Cl2。溴化物同系物在 299 K 时的正交空间群 Pnma(No.62)结构和氯化物同系物在 100 K 时的正交空间群 Pnma(No.62)结构均已获得。溴同系物在从 299 K 冷却到 100 K 时发生了相变,产生了一种具有四个结构域的晶体多晶体,其空间群对称性为单斜 P21/m(No.11),这是由构象变化引起的。在所有观察到的结构中,对晶体堆积起作用的主要分子内接触是 H...H、Halide...H/H...Halide、C...H/H...C 和 N...H/H...N。在三维网络中,与锌结合的水和与非锌结合的吡啶 N 原子间的分子内氢键是一个突出特征。非锌结合吡啶环之间的芳香π堆叠以及涉及卤化物配体的接触进一步稳定了晶体的堆积。
期刊介绍:
Acta Crystallographica Section C: Structural Chemistry is continuing its transition to a journal that publishes exciting science with structural content, in particular, important results relating to the chemical sciences. Section C is the journal of choice for the rapid publication of articles that highlight interesting research facilitated by the determination, calculation or analysis of structures of any type, other than macromolecular structures. Articles that emphasize the science and the outcomes that were enabled by the study are particularly welcomed. Authors are encouraged to include mainstream science in their papers, thereby producing manuscripts that are substantial scientific well-rounded contributions that appeal to a broad community of readers and increase the profile of the authors.