尿素含量低的铟、钆和铒硝酸盐配位化合物

E. Savinkina, I. Karavaev, E. K. Bettels, G. A. Buzanov, A. S. Kubasov
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引用次数: 0

摘要

目的。迄今为止,已经合成了尿素与稀土硝酸盐的比例为 1:4 和铟与稀土硝酸盐的比例为 1:6,并确定了其结构特征。然而,对尿素含量较低的类似化合物还缺乏研究。这项工作的目的是继续寻找各种元素与脲的配合物结构形成的规律性。合成了新型配位化合物,并通过粉末和单晶 X 射线衍射分析以及红外光谱进行了表征。在配体缺乏的条件下,铟、钆和铒硝酸盐在水溶液中与尿素(Ur)相互作用,生成了以前未知的配位化合物顺式-[In(Ur)4(NO3)2]NO3、[Gd(H2O)2(Ur)2(NO3)3]和[Er(H2O)2(Ur)(NO3)3]。铟络合物具有离子结构,而钆和铒络合物则具有分子结构。在铟络合物中,配位数为 6;阳离子具有八面体结构;涉及两个顺式排列的单齿硝酸酯基团和四个单齿脲分子。钆的配位数为 10;这里的配位多面体是一个扭曲的五边形二面体,在其顶点有两个水分子,而在内部多边形底面有两个单齿脲分子和三个垂直于二面体多边形底面的双齿螯合硝酸酯基团。铒的配位数为 9;配位多面体为扭曲的三顶三棱锥。与钆配合物相比,铒配合物中配位的是一个脲分子而不是两个,从而使配位数从 10 减少到 9。在铟络合物阳离子中,配位数为 6;与钆和铒络合物不同的是,阳离子不含水,硝酸基团为单齿。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Coordination compounds of indium, gadolinium, and erbium nitrates with low urea content
Objectives. To date, compounds of rare earth nitrates with urea in a ratio of 1:4 and indium in a ratio of 1:6 have been synthesized and structurally characterized. However, there is a lack of research into similar compounds having a lower urea content. The purpose of this work was to continue the search for regularities of structure formation for complexes of various elements with urea.Methods. Novel coordination compounds were synthesized and characterized by powder- and single-crystal X-ray diffraction analysis, as well as infrared spectroscopy.Results. The interaction of indium, gadolinium and erbium nitrates with urea (Ur) in an aqueous solution under conditions of ligand deficiency produces the previously unknown coordination compounds cis-[In(Ur)4(NO3)2]NO3, [Gd(H2O)2(Ur)2(NO3)3], and [Er(H2O)2(Ur)(NO3)3]. The indium complex is shown to have an ionic structure, whereas the gadolinium and erbium complexes have a molecular structure. In the indium complex, the coordination number is 6; the cation has an octahedral structure; it involves two cis-arranged monodentate nitrate groups and four monodentate urea molecules. The coordination number of gadolinium is 10; here, the coordination polyhedron is a distorted pentagonal bipyramid at the vertices of which there are two water molecules, while in the internal polygonal base there are two monodentate urea molecules and three bidentate chelating nitrate groups oriented perpendicular to the polygonal base of the bipyramid. The coordination number of erbium is 9; the coordination polyhedron is a distorted tricapped trigonal prism.Conclusions. In contrast with the gadolinium complex, one urea molecule is coordinated in the erbium complex instead of two, decreasing the coordination number from 10 to 9. In the indium complex cation, the coordination number is 6; unlike the gadolinium and erbium complexes, the cation does not contain water, and the nitrate groups are monodentate.
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