Determination of the Sizes of Particles of Superconducting Cuprate Y3Ba5Cu8OX by Means of Different Methods

A. Bolotnikova
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Abstract

The superconducting cuprate Y3Ba5Cu8Ox was obtained with the help of sol-gel technology (sample C), co-precipitation of hydroxocarbonates (sample B) and solid-phase synthesis methods (A). Based on the results of scanning electron microscopy and methods based on the analysis of X-ray diffraction data: the Williamson-Hall construction and the Scherrer formula, features of the microstructure of the synthesized samples are established. The smallest particle size has a sample that has been synthesized by the sol-gel method. The tendency to aggregation and sedimentation for this sample is the smallest. The sample obtained by the co-precipitation method has larger grains and a higher tendency to aggregate. The size of the microparticles and the tendency to aggregate for the sample synthesized by the solid-phase method are greatest. The morphology of particles was studied using three methods: SEM, Scherrer and Williamson-Hall formulas and the following results were found: particle size depends on the synthesis method, but a relatively narrow size distribution within one synthesis method remains, the value of crystal lattice microdeformation for samples increases in a line: C sample– A sample– B sample. Thus, the work was carried out for determining the size, structure and morphology of superconducting phases. It expands knowledge in the field of research of superconducting compounds
不同方法测定超导铜酸Y3Ba5Cu8OX颗粒尺寸
采用溶胶-凝胶技术(样品C)、羟基碳酸盐共沉淀法(样品B)和固相合成法(A)制备了超导铜酸盐Y3Ba5Cu8Ox。根据扫描电镜结果和基于x射线衍射数据分析的方法:Williamson-Hall结构和Scherrer公式,建立了合成样品的微观结构特征。最小粒径的样品是用溶胶-凝胶法合成的。这种样品的聚集和沉积倾向最小。共沉淀法得到的样品晶粒较大,团聚倾向较高。固相法合成的样品的微粒尺寸和聚集倾向最大。采用SEM、Scherrer和Williamson-Hall公式三种方法对颗粒形貌进行了研究,结果发现:颗粒尺寸取决于合成方法,但在一种合成方法内仍然存在相对狭窄的尺寸分布,样品的晶格微变形值呈直线增加:C样品- a样品- B样品。因此,这项工作是为了确定超导相的大小、结构和形态。它扩展了超导化合物研究领域的知识
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