金属间化合物体系的团簇自组织:团簇前体K4、K5和K9对Zr72P36-oS108、Zr18Ni22-tI40和Zr4Ni4-oS8晶体结构的自组装

IF 0.8 4区 材料科学 Q4 MATERIALS SCIENCE, CERAMICS
V. Ya. Shevchenko, G. D. Ilyushin
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引用次数: 0

摘要

利用计算机方法(ToposPro软件包),一个自组装的组合拓扑分析和建模Zr72P36-oS108 (a = 29.509 a, b = 19.063 a, c = 3.607 V = 2029.49 A3, Cmmm), Zr18Ni22-tI40 (a = b = 9.880 a, c = 6.610 V = 645.23 A3,预告/ m、和Zr4Ni4-oS8 (a = 3.271 a, b = 9.931 a, c = 4.107 V = 133.43 A3, Cmcm)晶体结构。对于Zr72P36-oS108的晶体结构,建立了结构单元为5、6、7的三维原子网簇表示的40种变体。由四个相连的四面体组成的金字塔K5 = 0@PZr4,四面体K4 = 0@Zr4和超四面体K9 = Zr(Zr4P4)的结构单元。对于Zr18Ni22-tI40的晶体结构也定义了超四面体K9 = Ni(Zr4Ni4)。对于Zr4Ni4-oS8的晶体结构,定义了四面体簇前驱体K4 = Zr2Ni2。从聚簇前驱体中重构三维结构自组装过程的对称性和拓扑代码,其形式为:主链→层→框架。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Cluster Self-Organization of Intermetallic Systems: Cluster Precursors K4, K5, and K9 for the Self-Assembly of Zr72P36-oS108, Zr18Ni22-tI40, and Zr4Ni4-oS8 Crystal Structures

Cluster Self-Organization of Intermetallic Systems: Cluster Precursors K4, K5, and K9 for the Self-Assembly of Zr72P36-oS108, Zr18Ni22-tI40, and Zr4Ni4-oS8 Crystal Structures

Using computer methods (ToposPro software package), a combinatorial topological analysis and modeling of the self-assembly of Zr72P36-oS108 (a = 29.509 Å, b = 19.063 Å, c = 3.607 Å, V = 2029.49 Å3, Cmmm), Zr18Ni22-tI40 (a = b = 9.880 Å, c = 6.610 Å, V = 645.23 Å3, I4/m, and Zr4Ni4-oS8 (a = 3.271 Å, b = 9.931 Å, c = 4.107 Å, V = 133.43 Å3, Cmcm) crystal structures are carried out. For the crystal structure of Zr72P36-oS108, 40 variants of the cluster representation of the 3D atomic net with the number of structural units 5, 6, and 7 are established. Structural units in the form of a pyramid K5 = 0@PZr4, tetrahedron K4 = 0@Zr4, and supratetrahedron K9 = Zr(Zr4P4) of four connected tetrahedra. For the crystal structure of Zr18Ni22-tI40 also defined supratetrahedra K9 = Ni(Zr4Ni4) are defined. For the crystal structure of Zr4Ni4-oS8, the tetrahedral cluster precursor K4 = Zr2Ni2 is defined. The symmetry and topological code of the processes of self-assembly of 3D structures from cluster precursors is reconstructed in the following form: primary chain → layer → framework.

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来源期刊
Glass Physics and Chemistry
Glass Physics and Chemistry 工程技术-材料科学:硅酸盐
CiteScore
1.20
自引率
14.30%
发文量
46
审稿时长
6-12 weeks
期刊介绍: Glass Physics and Chemistry presents results of research on the inorganic and physical chemistry of glass, ceramics, nanoparticles, nanocomposites, and high-temperature oxides and coatings. The journal welcomes manuscripts from all countries in the English or Russian language.
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