Experimental study of electrical conductivity of displacements of MPO 3 (M 2 WO 4 )–V 2 O 5 (M-Na, K)

A. M. Hasanaliev; Гасаналиев А. М.; P. N. Hasanalieva; Гасаналиева П. Н.; A. I. Rasulova; Расуловa А. И.

doi:10.7868/S3034553725080187

Experimental study of electrical conductivity of displacements of MPO₃(M₂WO₄)–V₂O₅(M-Na, K)

作者: Hasanaliev A.M.¹^,2, Hasanalieva P.N.¹, Rasulova A.I.¹
隶属关系:
1. Dagestan State Pedagogical University named after R. Gamzatov
2. Scientific Research Institute for General and Inorganic Chemistry
期: 卷 99, 编号 8 (2025)
页面: 1258-1262
栏目: ELECTROCHEMISTRY. GENERATION AND STORAGE OF ENERGY FROM RENEWABLE SOURCES
##submission.dateSubmitted##: 06.11.2025
##submission.datePublished##: 15.08.2025
URL: https://vietnamjournal.ru/0044-4537/article/view/695900
DOI: https://doi.org/10.7868/S3034553725080187
ID: 695900

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The electrical conductivity of eutectic two-component oxide-salt compositions has been studied: KPO₃–V₂O5; NaPO₃ is V₂O₅; Na₂WO₄ is V₂O₅ and K₂WO₄ is V₂O₅. The patterns of changes in the logarithm of conductivity and specific conductivity from the inverse value of temperature are revealed. It was revealed that the oxide-salt composition 38 mol % NaPO₃–62 mol % V₂O₅ has the highest electrical conductivity, which is a promising electrolyte for the production of refractory metals, as well as as electrolytes in chemical current sources.

关键词

electrolyte, melt, compositions, polytherm, electrical conductivity, oxide-salt systems

参考

Расулов А.И., Гаматаева Б.Ю., Гасаналиев А.М. и др. // Расплавы. 2006. № 6. С. 61.
Расулов А.И., Гасаналиев А.М., Мамедова А.К., Гаматаева Б.Ю. // Журн. Физ. химии. 2015. Т. 89. № 4. С. 648. [Rasulov A.I., Gasanaliev A.M., Mamedova A.K., Gamataeva B.Y. // Rus. J. of Physical Chem. A. 2015. Т. 89. № 4. С. 634.]
Taniuchi К., Kanai Т., Inoue A. // Sci. Repts. Tohohu. Niv. 1976. V. 26. № 2–3. P. 136.
Делимарский Ю.К. Марков Б.Ф. Электрохимия расплавленных солей. М.: Металлургиздат, 1960. 326 с.
Гасаналиев А.М., Расулов А.И., Гаматаева Б.Ю., Мамедова А.К. // Журн. физ. химии. 2012. Т. 86. № 2. С. 208. [Gasanaliev A.M., Rasulov A.I., Gamataeva B. Yu., Mamedova A.K. // Rus. J. of Physical Chemistry A. 2012. Т. 86. № 2. С. 154.]
Танутров И.Н., Лямкин С.А., Свиридова М.Н. // Расплавы. 2020. № 2. С. 187.
Такахиро Я. Способ получения металла и способ получения тугоплавкого металла, патент RU2 687 113 C2. МПК C2 5C7/00 (2006.01). https://patents.google.com/patent/RU2687113C2/ru
Шабанов О.М. Строение и свойства переноса расплавленных галогенидов щелочных металлов: дис. … канд. хим. наук: 02.00.00. Свердловск, 1966. 129 с.

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卷 99, 编号 8 (2025)

Experimental study of electrical conductivity of displacements of MPO₃(M₂WO₄)–V₂O₅(M-Na, K)

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A. Hasanaliev

P. Hasanalieva

A. Rasulova

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卷 99, 编号 8 (2025)

卷 99, 编号 8 (2025)

Experimental study of electrical conductivity of displacements of MPO3(M2WO4)–V2O5(M-Na, K)

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A. Hasanaliev

P. Hasanalieva

A. Rasulova

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Experimental study of electrical conductivity of displacements of MPO₃(M₂WO₄)–V₂O₅(M-Na, K)