三元合金纳米线：合成特征与磁性能

IF 0.6 4区材料科学 Q4 CRYSTALLOGRAPHY

Crystallography Reports Pub Date : 2024-11-14 DOI:10.1134/S1063774524601679

D. R. Khairetdinova, I. M. Doludenko, I. V. Perunov, I. S. Volchkov, L. V. Panina, D. L. Zagorskiy, K. V. Frolov, V. M. Kanevskii

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引用次数: 0

摘要

研究了由 FexCoyCu\(_{{(100-x-y)}}\) 和 FexNiyCu\(_{{(100-x-y)}}\) 合金制成的纳米线。研究了通过模板合成形成这些结构的具体特征。在连续增加电压条件下生长的纳米线的元素分析表明，铜的含量显著减少，主要磁性元素的比例也发生了变化。X 射线衍射分析表明，FeCoCu 是一种三组分固溶体，而 FeNiCu 则包含三相固溶体：铜含量高达 80% 的铁铜，铁含量较高的铁镍，以及镍含量高达 80% 的无定形或细粒状态的镍铜。摩斯鲍尔能谱分析显示，铜的加入可能会导致纳米线中磁矩的错位角发生变化；这一发现与磁力测量数据相关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Nanowires Made of Ternary Alloys: Synthesis Features and Magnetic Properties

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Nanowires Made of Ternary Alloys: Synthesis Features and Magnetic Properties

Nanowires made of Fe_xCo_yCu\(_{{(100-x-y)}}\) and Fe_xNi_yCu\(_{{(100-x-y)}}\) alloys have been investigated. Specific features of the formation of these structures by template synthesis are studied. Elemental analysis of the nanowires grown at successively increasing voltages revealed a significant decrease in the amount of copper, as well as a change in the ratio of the main magnetic elements. X-ray diffraction analysis showed that FeCoCu is a three-component solid solution, whereas FeNiCu contains three phases of solid solutions: FeCu with a Cu content up to 80%, FeNi with a high iron content, and NiCu in the amorphous or fine-grained state with a Ni content up to 80%. Mössbauer spectroscopy revealed that addition of copper may cause a change in the misorientation angle of magnetic moments in nanowires; this finding correlates with the magnetometry data.

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来源期刊

Crystallography Reports 化学-晶体学

CiteScore

1.10

自引率

28.60%

发文量

审稿时长

4-8 weeks

期刊介绍： Crystallography Reports is a journal that publishes original articles short communications, and reviews on various aspects of crystallography: diffraction and scattering of X-rays, electrons, and neutrons, determination of crystal structure of inorganic and organic substances, including proteins and other biological substances; UV-VIS and IR spectroscopy; growth, imperfect structure and physical properties of crystals; thin films, liquid crystals, nanomaterials, partially disordered systems, and the methods of studies.