INVESTIGATION OF THE MECHANISM OF LANTHANUM IONS ELECTROREDUCTION ON NICKEL ELECTRODE IN CHLORIDE MELT

Kh. B. Kushkhov; Кушхов Х. Б.; F. A. Kisheva; Кишева Ф. А.; M. K. Vindizheva; Виндижева М. К.; R. A. Mukozheva; Мукожева Р. А.; K. R. Kozhemova; Кожемова К. Р.; L. M. Beroeva; Бероева Л. М.

doi:10.31857/S023501062306004X

INVESTIGATION OF THE MECHANISM OF LANTHANUM IONS ELECTROREDUCTION ON NICKEL ELECTRODE IN CHLORIDE MELT

Авторлар: Kushkhov K.¹, Kisheva F.¹, Vindizheva M.¹, Mukozheva R.¹, Kozhemova K.¹, Beroeva L.¹
Мекемелер:
1. Kabardino-Balkarian State University named after H.M. Berbekov
Шығарылым: № 6 (2023)
Беттер: 652-660
Бөлім: Articles
URL: https://journals.rcsi.science/0235-0106/article/view/162353
DOI: https://doi.org/10.31857/S023501062306004X
EDN: https://elibrary.ru/EBZQHG
ID: 162353

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Аннотация

The electrochemical behavior of lanthanum ions on a nickel electrode has been studied using various electrochemical methods such as cyclic voltammetry, chronopotentiometry, open circuit chronopotentiometry (on-off curves), and square wave voltammetry in an equimolar melt of potassium and sodium chlorides at 973 K. The cyclic voltammetry curves has several reduction waves on the cathodic branch and corresponding oxidation waves on the anodic branch. The first wave A is located in the potential region –(0.0–0.1) V, where the reduction of Ni²⁺ ions takes place. The second wave B is in the region of potentials –(1.72–1.77) V, on it occurs electroreduction of ions \({\text{LaCl}}_{6}^{{3 - }}\) on nickel electrode with certain depolarization with formation of intermetallide of lanthanum with nickel La_xNi_y. The appearance of the third wave C in the potential region –(2.09–2.13) V, we associate with the electroreduction of chloride complexes \({\text{LaCl}}_{6}^{{3 - }}\) on intermetallide La_xNi_y with the formation of metallic lanthanum. On the basis of the obtained data it is shown that during the electroreduction of lanthanum chloride complexes in KCl–NaCl melt at T = 973K the nickel electrode interacts with the released lanthanum, causing a significant depolarization of the process of electroreduction of the chloride complex, also formation of intermetallide with Ni electrode occurs.

Негізгі сөздер

lanthanum chloride, electroreduction, cyclic chronovoltammetry, chronopotentiometry, open circuit chronopotentiometry, chloride melt

Әдебиет тізімі

Chesser R., Guo S., Zhang J. // Annals of Nuclear Energy. 2018. 120. P. 246–252. https://doi.org/10.1016/j.anucene.2018.05.045
Wang Y., Ge J., Zhuo W., Guo S., Zhang J. // Electrochemistry Communications. 2019. 104. Р. 106468. https://doi.org/10.1016/j.elecom.2019.05.017
Liu Y.-I., Ren H., Yin T.-Q., Yang D.-W., Chai Z.-F.,. Shi W.-Q. // Electrochimica Acta. 2019. 326. Р. 134971. https://doi.org/10.1016/j.electacta.2019.134971
Yusheng Y., Chaoqun L., Lingyun G., Zhuoqing A., Zengwu Z., Baowei L. // Separation and Purification Technology. 2020. 233. Р. 116030. https://doi.org/10.1016/j.seppur.2019.116030
Grandell L., Lehtilä A., Kivinen M., Koljonen T., Kihlman S., Lauri L.S. // Renewable energy. 2016. 95. P. 53–62. https://doi.org/10.1016/j.renene.2016.03.102
Fedorov P.P., Alexandrov A.A. // J. Fluorine Chemistry. 2019. 227. Р. 109374. https://doi.org/10.1016/j.jfluchem.2019.109374
Omodora L., Pitkäaho S., Turpeinen E.M., Saavalainen P., Oravisjärvi K., Keiski R.L. // Journal of Cleaner Production. 2019. 236. Р. 117573. https://doi.org/10.1016/j.jclepro.2019.07.048
Krishnamurthy N., Gupta C.K. Extractive metallurgy of rare earth (2nd edition), CRC Press, 2016. https://doi.org/10.1201/b19055
Iida T., Ikeda M., Iwadate Y., Mochinaga J. Processings of 22nd symposium on Molten Salt chemistry. Kitakyushu. 43. 1990. (in Japanese).
Kushkhov H.B., Vindizheva M.K., Mukozheva R.A., Tlenkopachev M.R., Nafonova M.N. Issledovaniye elektrovosstanovleniya ionov lantana na vol’framovom elektrode v galogenidnykh rasplavakh pri T = 823 K [Investigation of electroreduction of lanthanum ions on a tungsten electrode in halide melts at T = 823 K] // Rasplavy. 2012. № 1. P. 50–59. [In Russian].
Kushkhov Kh.B., Kalibatova M.N., Vindizheva M.K., Mukozheva R.A. Issledovaniye elektrovosstanovleniya ionov lantana na vol’framovom elektrode v ekvimol’nom rasplave NaCl–KCl pri T = 973 K [Investigation of electroreduction of lanthanum ions on a tungsten electrode in equimolar NaCl–KCl melt at T = 973 K] // Rasplavy. 2017. № 2. P. 142–152. [In Russian].
Kushkhov Kh.B., Vindizheva M.K., Uzdenova A.S., Zimin A.V., Pupkova O.L. Mekhanizm elektrovosstanovleniya lantana v galogenidnykh rasplavakh [Mechanism of electroreduction of lanthanum in halide melts] // Fizicheskaya khimiya i elektrokhimiya: Mezhvuzovskiy sbornik nauchnykh trudov. Novomoskovsk, 2000. P. 12–17. [In Russian].
Vandarkuzhali S., Gogoi N., Ghosh S., Reddy B.P., Nagarajan K. // Electrochim. Acta. 2012. № 59. P. 245–255. https://doi.org/10.1016/j.electacta.2011.10.062
Kushkhov Kh.B., Vindizheva M.K. Mekhanismy electrovosstanovleniya khloridnykh i khloridno-ftoridnykh compleksov lantana v galogenidnykh rasplavakh [Mechanisms of electroreduction of chloride and chloride-fluoride lanthanum complexes in halide melts] // Ukr. Khim. Zhurnal. 2000. 66. № 5. P. 49–52. [In Russian].
Masset P., Konings R.J.M., Malmbeck R., Serp J., Glatz J.-P. // J. Nucl. Mater. 2005. 344. P. 173–179. https://doi.org/10.1016/j.jnucmat.2005.04.038