晶体结构之间的拓扑关系：预测无机材料的途径

IF 2.1 4区化学 Q3 CHEMISTRY, MULTIDISCIPLINARY

Structural Chemistry Pub Date : 2024-09-09 DOI:10.1007/s11224-024-02379-1

Natalia A. Kabanova, Ekaterina A. Grishina, Vladislav T. Osipov, Valeria E. Pavlova, Maria A. Solodovnikova, Artem A. Kabanov, Vladislav A. Blatov

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引用次数: 0

摘要

我们回顾了分析金属间化合物晶体结构的拓扑方法，以及寻找金属间化合物之间的结构关系（即其底层原子网之间的关系）的拓扑方法。我们引入了骨架网的概念，以寻找金属间化合物中最简单的原子间接触系统，它支持三周期晶体结构。利用观察到的方法，我们揭示了二元 MeX 化合物（Me = Re、Ti 或 Rh；X = B、C、N 或 Si）晶体结构之间的拓扑关系，并发现了体心立方网在其拓扑层次中的关键作用。我们通过生成所有可能的 "子网-上核 "拓扑变换，探索了相应晶体系统的构型空间，并用 DFT 方法优化了由此产生的拓扑图案，发现 RhB 的新相在 22 GPa 以上稳定。我们讨论了拓扑表征在预测新晶体化学物质中的作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Topological relations between crystal structures: a route to predicting inorganic materials

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Topological relations between crystal structures: a route to predicting inorganic materials

We review topological approaches to the analysis of crystal structures of intermetallic compounds and to searching for structural relations between them as the relations between their underlying atomic nets. We introduce the concept of skeletal net to find the simplest system of interatomic contacts in intermetallic compounds, which supports the three-periodic crystal architecture. Using the observed approaches, we have revealed topological relations between crystal structures of binary MeX compounds (Me = Re, Ti or Rh; X = B, C, N, or Si) and found a key role of the body-centered cubic net in their topological hierarchy. We have explored the configuration space of the corresponding crystalline systems by generating all possible ‘subnet-supernet’ topological transformations, optimized the resulting topological motifs with DFT methods and found a new phase of RhB to be stable above 22 GPa. We discuss the role of topological representations in the prediction of new crystalline chemical substances.

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来源期刊

Structural Chemistry 化学-化学综合

CiteScore

3.80

自引率

11.80%

发文量

227

审稿时长

3.7 months

期刊介绍： Structural Chemistry is an international forum for the publication of peer-reviewed original research papers that cover the condensed and gaseous states of matter and involve numerous techniques for the determination of structure and energetics, their results, and the conclusions derived from these studies. The journal overcomes the unnatural separation in the current literature among the areas of structure determination, energetics, and applications, as well as builds a bridge to other chemical disciplines. Ist comprehensive coverage encompasses broad discussion of results, observation of relationships among various properties, and the description and application of structure and energy information in all domains of chemistry. We welcome the broadest range of accounts of research in structural chemistry involving the discussion of methodologies and structures,experimental, theoretical, and computational, and their combinations. We encourage discussions of structural information collected for their chemicaland biological significance.