Ligand-field splitting in eight-co-ordinate complexes of dodecahedral structure

M. Randic, M. Vučelić
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引用次数: 2

Abstract

The splitting and the order of 3d- and 4d-orbital energies for some complexes of the first- and second-transition series having dodecahedral geometry is calculated by the simple crystal-field model. The relative order of energy levels depends on the nature of the ligands and their distances from the metal. The energy behaviour is further examined as a function of the ratio G2 : G4 by assuming first all ligands equal and at the same distance from central metal, and then for cases when all ligands are equal but at different distances from the central metal. The discussion is extended to cases when different ligands are present in the complex. The results suggest that there is no representative energy diagram valid for all MX8 dodecahedral complexes. The calculations are applied to some complexes of Zr, Mo, Ti, Cr, and Co in order to illustrate the variations met in actual cases. It is found that dxy is the most stable for 4d and dz2 for 3d complexes examined.
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十二面体结构八配位配合物的配体场分裂
用简单晶体场模型计算了一些具有十二面体几何结构的第一和第二跃迁系列配合物的分裂和三维和四维轨道能量的顺序。能级的相对顺序取决于配体的性质及其与金属的距离。通过首先假设所有配体相等且与中心金属的距离相同,然后假设所有配体相等但与中心金属的距离不同,进一步研究了能量行为作为比值G2: G4的函数。讨论扩展到不同配体存在于络合物中的情况。结果表明,对于所有的MX8十二面体配合物,没有一个具有代表性的能图。计算结果应用于Zr, Mo, Ti, Cr和Co的配合物,以说明在实际情况下遇到的变化。发现dxy和dz2在4d和3d络合物中最稳定。
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