Incommensurate structures and radiation damage in Rb₂V₃O₈ and K₂V₃O₈ mixed-valence vanadate fresnoites.

IF 1.3 3区化学 Q3 CHEMISTRY, MULTIDISCIPLINARY

Acta crystallographica Section B, Structural science, crystal engineering and materials Pub Date : 2023-04-01 DOI:10.1107/S2052520623000999

Andrzej Grzechnik, Vaclav Petříček, Dmitry Chernyshov, Charles McMonagle, Tobias Geise, Hend Shahed, Karen Friese

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Abstract

The structures and phase transitions to incommensurate structures in Rb₂V₃O₈ and K₂V₃O₈ mixed-valence vanadate fresnoites are studied with synchrotron single-crystal diffraction at low temperatures and ambient pressure. Although mixed satellite reflections are absent, the modulated structure of K₂V₃O₈ below 115 K is better described in (3 + 2)- than in (3 + 1)-dimensional space. The geometries of the VO₄ and VO₅ building units are rigid and it is mainly slight rotations of these polyhedra and small variation of the intermediate K-O distances that are modulated. Prolonged exposure to the high-brilliance synchrotron beam suppresses the incommensurate phase. The previously postulated phase transition to the incommensurate phase in Rb₂V₃O₈ at 270 K was not observed. One of the reasons could be that the intense radiation also affects the modulation in this material. Strategies to collect and analyse single-crystal diffraction data measured with very intense synchrotron radiation using modern low-noise pixel area detectors are discussed.

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Rb2V3O8和K2V3O8混合价钒酸盐fresnoite的不匹配结构和辐射损伤。

用同步单晶衍射研究了低温常压条件下Rb2V3O8和K2V3O8混合价钒酸盐fresnoite的结构和向不适应结构的相变。虽然没有混合卫星反射，但在(3 + 2)-中比在(3 + 1)维空间中更好地描述了K2V3O8在115 K以下的调制结构。VO4和VO5建筑单元的几何形状是刚性的，主要是这些多面体的轻微旋转和中间K-O距离的小变化被调制。长时间暴露在高亮度同步加速器光束下抑制了不相称相位。在270 K时，没有观察到Rb2V3O8中先前假设的向不相称相的相变。其中一个原因可能是强烈的辐射也影响了这种材料的调制。讨论了利用现代低噪声像素区域探测器采集和分析强同步辐射单晶衍射数据的策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Acta crystallographica Section B, Structural science, crystal engineering and materials CHEMISTRY, MULTIDISCIPLINARYCRYSTALLOGRAPH-CRYSTALLOGRAPHY

CiteScore

3.60

自引率

5.30%

发文量

期刊介绍： Acta Crystallographica Section B: Structural Science, Crystal Engineering and Materials publishes scientific articles related to the structural science of compounds and materials in the widest sense. Knowledge of the arrangements of atoms, including their temporal variations and dependencies on temperature and pressure, is often the key to understanding physical and chemical phenomena and is crucial for the design of new materials and supramolecular devices. Acta Crystallographica B is the forum for the publication of such contributions. Scientific developments based on experimental studies as well as those based on theoretical approaches, including crystal-structure prediction, structure-property relations and the use of databases of crystal structures, are published.