Structural characterization of a new samarium–sodium heterometallic coordination polymer

Ashley M. Hastings, Ashley Williams, Robert G. Surbella III, A. Hixon, Ana Arteaga
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Abstract

Lanthanide-containing materials are of interest in the field of crystal engineering because of their unique properties and distinct structure types. In this context, a new samarium–sodium heterometallic coordination polymer, poly[tetrakis(μ2-2-formyl-6-methoxyphenolato)samarium(III)sodium(I)], {[SmNa(C8H7O3)4]·solvent} n (Sm-1), was synthesized and crystallized via slow evaporation from a mixture of ethanol and acetonitrile. The compound features alternating SmIII and NaI ions, which are linked by ortho-vanillin (o-vanillin) ligands to form a mono-periodic chain-like coordination polymer. The chains propagate along the [001] direction. Residual electron density of disordered solvent molecules in the void space could not be reasonably modeled, thus the SQUEEZE function was applied. The structural, vibrational, and optical properties are reported.
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新型钐钠杂金属配位聚合物的结构特征
含镧系元素的材料因其独特的性质和不同的结构类型而在晶体工程领域备受关注。在此背景下,我们合成了一种新型钐钠杂金属配位聚合物--聚[四(μ2-2-甲酰基-6-甲氧基苯酚)钐(III)钠(I)],{[SmNa(C8H7O3)4]-溶剂} n (Sm-1),并通过乙醇和乙腈混合物的缓慢蒸发结晶。该化合物以交替出现的 SmIII 离子和 NaI 离子为特征,它们通过正香兰素(邻香兰素)配体连接形成单周期链状配位聚合物。链沿着 [001] 方向传播。空隙中无序溶剂分子的残留电子密度无法合理建模,因此采用了 SQUEEZE 函数。报告了其结构、振动和光学特性。
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