Electrochemical Properties of Induction Melt Al-Substituted AB 5 -Type Intermetallics

S. V Shmalii; Шмалий С. В; I. D Shamov; Шамов И. Д; A. N Lapshin; Лапшин А. Н; V. V Sanin; Санин В. В; S. A Melnikov; Мельников С. А; B. P Tarasov; Тарасов Б. П; A. A Volodin; Володин А. А

doi:10.7868/S3034559625110177

Electrochemical Properties of Induction Melt Al-Substituted AB₅-Type Intermetallics

作者: Shmalii S.V¹, Shamov I.D¹, Lapshin A.N¹, Sanin V.V¹^,2, Melnikov S.A², Tarasov B.P¹, Volodin A.A¹
隶属关系:
1. Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry of the Russian Academy of Sciences
2. Laboratory of Metallurgical Processes “Giredmet”
期: 卷 95, 编号 11-12 (2025)
页面: 616-622
栏目: Articles
URL: https://journals.rcsi.science/0044-460X/article/view/362189
DOI: https://doi.org/10.7868/S3034559625110177
ID: 362189

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Intermetallic compounds LaNi_5-xAl_x (x = 0.1–0.9) were synthesized by the induction melting method. The structure, morphology and phase composition of the obtained intermetallics were determined. It was shown that the intermetallics correspond to the Hauke phase with a hexagonal structure of the CaCu₅-type. The electrochemical characteristics of the compounds as negative electrodes of nickel-metal hydride power sources were studied. It was shown that the maximum specific capacity of the electrodes (320 mAh/g) is achieved with an Al content of 0.47 mol per intermetallics formula unit. A direct correlation was established between the composition, specific electrochemical capacity, high-rate dischargeability and cyclic stability of these materials.

关键词

AB₅-type intermetallics, induction melting, structure, Ni-MH power source, anode material

参考

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卷 95, 编号 11-12 (2025)

Electrochemical Properties of Induction Melt Al-Substituted AB₅-Type Intermetallics

全文:

详细

关键词

作者简介

S. Shmalii

I. Shamov

A. Lapshin

V. Sanin

S. Melnikov

B. Tarasov

A. Volodin

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Electrochemical Properties of Induction Melt Al-Substituted AB5-Type Intermetallics

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Electrochemical Properties of Induction Melt Al-Substituted AB₅-Type Intermetallics