J. Fábry, M. Kučeráková, M. Dušek, E. Buixaderas, J. Hlinka
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引用次数: 0
摘要
本文报道了利用439 K时sinθmax/λ = 0.995000 Å-1,即空前高的-θ值,测定了CsNO3立方相的单晶结构。在Pm3m (Z = 1)中对其结构进行了精化。对电子密度差图的分析表明,最合适的模型是Cs、N、O1和O2原子分别位于Wyckoff位置1a、6f、6f和24l的12取向模型,而不是Cs、N和O原子分别位于Wyckoff位置1a、8g和24m的8取向文石模型。然而,如果考虑到八取向文石模型中O原子的大各向异性位移参数,两种模型显示出非常接近的相似性。其原因在于无序的[NO3]-阴离子位置周围的电子密度被涂抹。
Structure of the high-temperature phase of caesium nitrate - the importance of high-resolution data.
A single-crystal structure determination of the cubic phase of CsNO3 based on data collected at 439 K up to sinθmax/λ = 0.995000 Å-1, i.e. to an unprecedentedly high-θ value, is reported. The structure has been refined in Pm3m (Z = 1). Analysis of the difference electron-density maps revealed that the most appropriate model is the twelve-orientation model with the Cs, N, O1 and O2 atoms situated on the Wyckoff positions 1a, 6f, 6f and 24l, respectively, rather than the eight-orientation aragonite model with the Cs, N and O atoms situated on the Wyckoff positions 1a, 8g and 24m, respectively. Both models, however, show close similarities if the large anisotropic displacement parameters of the O atoms in the eight-orientation aragonite model are taken into account. The reason for this is shown to lie in the smeared electron density around the positions of the disordered [NO3]- anion.
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