β-K2Ca3(CO3)4中阳离子和阴离子的无序耦合

IF 5.2 3区 材料科学 Q2 CHEMISTRY, MULTIDISCIPLINARY
Sergey V. Rashchenko, Mark A. Ignatov, Anton F. Shatskiy, Anton V. Arefiev, Konstantin D. Litasov
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引用次数: 0

摘要

自阴离子基团理论提出以来,人们一直认为光学晶体中阴离子基团的空间排列决定了晶体的功能特性,如非线性光学特性。同时,阳离子置换导致晶体结构中出现无序阳离子位点或出现阳离子有序超结构,已被广泛用于控制材料特性。这项研究表明,在最近描述的 K2Ca3(CO3)4 材料的 β 修饰中,阳离子的位置无序和 (CO3)2- 阴离子的取向无序之间存在耦合。与 α 改性[P212121,a = 7.39134 (18),b = 8.8153 (2),c = 16.4803 (4)埃]中有序阳离子亚晶格有利于 (CO3)2- 阴离子基团的非中心对称定向有序排列不同,β-K2Ca3(CO3)4 中的阳离子位置紊乱[Pnma,a = 7.5371 (2),b = 16.1777 (5),c = 8.7793 (3) Å]中的阳离子亚晶格具有相同的拓扑结构,这导致了 (CO3)2- 基团的取向紊乱,并在平均结构中出现了一个反转中心。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Coupling between cation and anion disorder in β-K2Ca3(CO3)4

Since the development of anionic group theory, the spatial arrangement of anionic groups in optical crystals has been believed to determine their functional, such as nonlinear optical, properties. At the same time, cation substitution, resulting in either the appearance of disordered cation sites in a crystal structure or the emergence of cation-ordered superstructures, has been widely used to control material properties. This work demonstrates the coupling between positional cation disorder and orientational disorder of (CO3)2− anions in the β modification of the recently described K2Ca3(CO3)4 material. In contrast to the α modification [P212121, a = 7.39134 (18), b = 8.8153 (2), c = 16.4803 (4) Å], where the ordered cation sublattice favors the non-centrosymmetric orientationally ordered arrangement of (CO3)2− anionic groups, positional cation disorder in β-K2Ca3(CO3)4 [Pnma, a = 7.5371 (2), b = 16.1777 (5), c = 8.7793 (3) Å] within the cation sublattice of the same topology leads to orientational disorder of (CO3)2− groups and the appearance of an inversion center in the average structure.

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来源期刊
Journal of Applied Crystallography
Journal of Applied Crystallography CHEMISTRY, MULTIDISCIPLINARYCRYSTALLOGRAPH-CRYSTALLOGRAPHY
CiteScore
7.80
自引率
3.30%
发文量
178
期刊介绍: Many research topics in condensed matter research, materials science and the life sciences make use of crystallographic methods to study crystalline and non-crystalline matter with neutrons, X-rays and electrons. Articles published in the Journal of Applied Crystallography focus on these methods and their use in identifying structural and diffusion-controlled phase transformations, structure-property relationships, structural changes of defects, interfaces and surfaces, etc. Developments of instrumentation and crystallographic apparatus, theory and interpretation, numerical analysis and other related subjects are also covered. The journal is the primary place where crystallographic computer program information is published.
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