Hydrothermal syntheses, structures and properties of two zinc complexes based on an azobenzene carboxylate ligand

Mou-Yi Zhang, Lei Guan
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Abstract

Two zinc complexes [Zn(LH)2(phen)] (1) and [Zn(L)(H2O)] n (2) (LH = 2-hydroxy-5-((3-nitrophenyl)azo)-benzoate, phen = 1,10-phenanthroline) were synthesized by hydrothermal methods and characterized by elemental analysis and IR spectroscopy. Complexes 1 and 2 crystallize in mononuclear and polymeric structures, respectively, where ligands L 2− are coordinated to the zinc ions via their carboxylate and phenolate groups in η 2,μ 2,κ 2 and η 2,μ 2,κ 1 mode, respectively. Introduction of the auxiliary chelating phen ligand results in the chelation of the zinc ions in 1 through both the phen ligand and the carboxylate group of the first LH anion assisted further by the monodentate carboxylate group of the second LH anion. In complex 2 the L 2− anions act as tridentate ligands utilizing their carboxylate and phenolate groups to coordinate to three zinc ions. The phenolate oxygen atom bridges two zinc ions resulting in the generation of a layer structure. Fluorescence measurements have indicated that complexes 1 and 2 exhibit similar luminescence emissions around 393 and 387 nm, respectively, which originate from intra-ligand π-π* transitions. The emission intensities were strengthened relative to the sodium complex NaLH owing to the enhancement of the rigidity of the aromatic system through the coordination interactions of the ligands with the more tightly bound zinc ions. Furthermore, the suspension of complex 2 can be used to selectively detect Fe3+ cations via the luminescence quenching process.
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基于偶氮苯羧酸配体的两种锌配合物的水热合成、结构和性质
通过水热法合成了两种锌配合物 [Zn(LH)2(phen)] (1) 和 [Zn(L)(H2O)] n (2)(LH- = 2-羟基-5-((3-硝基苯基)偶氮)-苯甲酸酯,phen = 1,10-菲罗啉),并通过元素分析和红外光谱对其进行了表征。配合物 1 和 2 分别以单核和聚合物结构结晶,其中配体 L 2- 通过其羧基和苯酚基分别以 η 2,μ 2,κ 2 和 η 2,μ 2,κ 1 模式与锌离子配位。辅助螯合剂 phen 配体的引入导致 1 中的锌离子通过 phen 配体和第一个 LH- 阴离子的羧酸基团螯合,并进一步得到第二个 LH- 阴离子的单齿羧酸基团的帮助。在复合物 2 中,L 2-阴离子作为三叉配体,利用其羧基和苯酚基与三个锌离子配位。苯酚氧原子将两个锌离子连接起来,形成了层状结构。荧光测量结果表明,复合物 1 和 2 分别在 393 纳米和 387 纳米附近发出类似的荧光,这些荧光来自配体内部的 π-π* 转变。与钠络合物 NaLH 相比,发射强度有所增强,这是因为配体与结合更紧密的锌离子之间的配位相互作用增强了芳香系统的刚性。此外,络合物 2 的悬浮液可用于通过发光淬灭过程选择性地检测 Fe3+ 阳离子。
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