Coordination networks of Ag(I) and N,N′- bis(3-pyridinecarboxamide)-1,6-hexane: structures and anion exchange

Journal of The Chemical Society-dalton Transactions Pub Date : 2002-12-09 DOI:10.1039/B206680G

S. Muthu, J. Yip, J. Vittal

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引用次数: 147

Abstract

A bidentate ligand N,N′- bis(3-pyridinecarboxamide)-1,6-hexane (L) and its silver complexes have been synthesized and characterized by single crystal X-ray diffraction. Reaction of AgClO4 and L in H2O/EtOH gives rise to a coordination polymer [Ag2L3OH][ClO4]·2.5H2O. The X-ray crystal structure of the compound shows honeycomb-like networks in which four-coordinated Ag ions are linked to three-coordinated Ag ions via three ligands L. The coordination of the long ligands L to the Ag ions creates tube-like structures and the tubes of adjacent honeycomb layers are interlocked, leading to an interpenetrating network. The compound [AgL][ClO4], synthesized from CH3OH, is composed of twisted zigzag coordination polymers in which ligands L are linked by Ag ions. Ligand L displays two different conformations A and B within a single strain of polymer. The two conformers differ in the orientation of the two pyridyl-groups which are arranged periodically in the polymer in the sequence ABBABBA. The polymer chains assemble into 2-D undulating sheets via amide hydrogen bonds. Reaction between AgNO3/AgCF3SO3 and L leads to polymeric compounds [AgL][NO3] and [AgL][CF3SO3]. The compounds are composed of coordination polymers in zigzag conformation and the polymer chains assemble into undulating sheets via inter-chain hydrogen bonds. The inter-sheet Ag–Ag distances of the compounds are in the order [AgL][CF3SO3] > [AgL][ClO4] > [AgL][NO3]. The anion exchange properties of the compounds are monitored by using X-ray powder diffraction, infrared spectroscopy and elemental analysis. Our results show that the anions in [AgL][NO3] and [AgL][CF3SO3] can be totally replaced with ClO4−. However, the exchange is not reversible. In additional, inter-conversion between [AgL][NO3] and [AgL][CF3SO3] by anion exchange is shown to be unfeasible. Anion selectivity could be due to the different hydration energy of the anions and the structural reorganization involved in the conversion.

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银(I)和N,N ' -二(3-吡啶甲酰胺)-1,6-己烷的配位网络:结构和阴离子交换

合成了一种双齿配体N,N ' -二(3-吡啶甲酰胺)-1,6-己烷(L)及其银配合物，并用单晶x射线衍射对其进行了表征。AgClO4与L在H2O/EtOH中反应生成配位聚合物[Ag2L3OH][ClO4]·2.5H2O。该化合物的x射线晶体结构显示蜂窝状网络，其中四配位银离子通过三个配体L与三配位银离子相连。长配体L与银离子的配位形成管状结构，相邻蜂窝层的管状结构互锁，形成互穿网络。由CH3OH合成的化合物[AgL][ClO4]是由Ag离子连接配体L的扭曲之字形配位聚合物组成的。配体L在一种聚合物中表现出两种不同的构象A和B。这两种构象的不同之处在于两个吡啶基的取向不同，它们在聚合物中以ABBABBA序列周期性排列。聚合物链通过酰胺氢键组装成二维波纹片。AgNO3/AgCF3SO3与L反应生成高分子化合物[AgL][NO3]和[AgL][CF3SO3]。该化合物由之字形配位聚合物组成，聚合物链通过链间氢键组装成波纹片。化合物的片间Ag-Ag距离依次为[AgL][CF3SO3] > [AgL][ClO4] > [AgL][NO3]。采用x射线粉末衍射、红外光谱和元素分析等方法对化合物的阴离子交换性能进行了监测。结果表明，[AgL][NO3]和[AgL][CF3SO3]中的阴离子可以被ClO4−完全取代。然而，这种交换是不可逆转的。此外，[AgL][NO3]与[AgL][CF3SO3]通过阴离子交换相互转化是不可行的。阴离子的选择性可能是由于阴离子的水合能不同以及在转化过程中所涉及的结构重组。

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Journal of The Chemical Society-dalton Transactions

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