Crystal Structure of Catena-((μ8-benzene-1,2,4,5-tetracarboxylato)-triaqua-calcium(II)-copper(II))
IF 0.1
Q4 CRYSTALLOGRAPHY
Gaoxiang Meng, Qiang Li, Yongming Yang
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引用次数: 0
Abstract
The construction of some metal-organic framework (MOF) based on alkaline earth metals and aromatic carboxylic acid has been emerging as a research field for more than thirty years.1 The lack of d-orbital electrons in alkaline elements may result in even more coordination geometries in the construction of a MOF material.1 However, by introducing both one transition and alkaline earth metals simultaneously into a MOF structure has been only reported recently.2 The unsaturated coordination and weak coordinated solvent molecules around metal centers can provide some new type of potentially valuable MOF materials.3–6 Based on this design strategy, we have now prepared one Cu(II)-Ca(II) combined coordination complex (I) under the hydrothermal condition (Fig. 1). In (I), these two types of metals are bridged by benzene-1,2,4,5-tetracarboxylic acid (H4BTA). Although no crystallographic void was detected in (I), it can adsorb N2 gas to a certain extent. Herein, we will report the crystal structure of (I). In this research, compound (I) was prepared by dissovling Cu(NO3)2·2(H2O) (0.2 mmol, 48.0 mg), CaCl2 (0.2 mmol, 23 mg) and H4BTA acid (0.2 mmol, 51.0 mg) in 10 mL of water. The mixture was stirred for 10 min at ambient temperature and then heated in a 20-mL capacity Teflon-lined reaction vessel at 160°C for 3 days. After slowly cooling to room temperature at a rate of 5°C h–1, the final plate-blue crystals (51.2 mg), suitable for X-ray structure analysis, could be obtained. The crystal and structure refinement data are summarized in Table 1. 2019 © The Japan Society for Analytical Chemistry
三十多年来,基于碱土金属和芳香羧酸的一些金属有机骨架(MOF)的构建一直是一个新兴的研究领域。1碱性元素中缺乏d轨道电子可能会导致MOF材料的构建中出现更多的配位几何结构。1然而,通过将一种过渡金属和碱土金属同时引入MOF结构,最近才有报道。2金属中心周围的不饱和配位和弱配位溶剂分子可以提供一些新型的潜在价值的MOF材料。3-6基于这种设计策略,我们现在已经在水热条件下制备了一种Cu(II)-Ca(II)组合配位络合物(I)(图1)。在(I)中,这两种类型的金属通过苯-1,2,4,5-四羧酸(H4BTA)桥接。虽然在(I)中没有检测到结晶空隙,但它可以在一定程度上吸附N2气体。在此,我们将报道(I)的晶体结构。在本研究中,化合物(I)是通过将Cu(NO3)2·2(H2O)(0.2mmol,48.0mg)、CaCl2(0.2mmol、23mg)和H4BTA酸(0.2mmol和51.0mg)溶解在10mL水中制备的。将混合物在环境温度下搅拌10分钟,然后在容量为20 mL的聚四氟乙烯内衬反应容器中在160°C下加热3天。在以5°C h–1的速率缓慢冷却至室温后,可以获得适合X射线结构分析的最终板状蓝色晶体(51.2 mg)。晶体和结构细化数据总结在表1中。2019©日本分析化学学会
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