Molten salt electrolysis of neodymium: electrolyte selection and deposition mechanism

被引:15
|
作者
Thudum, R. [1 ]
Srivastava, A. [1 ]
Nandi, S. [1 ]
Nagaraj, A. [2 ]
Shekhar, R. [1 ]
机构
[1] Indian Inst Technol, Kanpur 208016, Uttar Pradesh, India
[2] Bhabha Atom Res Ctr, Bombay 400085, Maharashtra, India
来源
TRANSACTIONS OF THE INSTITUTIONS OF MINING AND METALLURGY SECTION C-MINERAL PROCESSING AND EXTRACTIVE METALLURGY | 2010年 / 119卷 / 02期
关键词
Neodymium; Electrolysis; Deposition mechanism; Fluorides;
D O I
10.1179/174328510X498134
中图分类号
TD [矿业工程];
学科分类号
0819 ;
摘要
Molten salt electrolysis of neodymium from Nd2O3 can be a viable alternative to calciothermic reduction. Two important issues merit attention: selection of an appropriate electrolyte and the mechanism of the neodymium deposition reaction. Cyclic voltammetry experiments and melting point considerations point to the eutectic LiF-CaF2 as an appropriate electrolyte. The presence of CaF2 polarises the Li deposition reaction to more cathodic potentials, thereby providing a larger potential window for the deposition of neodymium. Experiments with the LiF-CaF2-NdF3-Nd2O3 and LiF-CaF2-LaF3-Nd2O3 melts suggest that both [NdF6](3-)and [NdOF5](4-),depending on their molar ratios, can be reduced to neodymium.
引用
收藏
页码:88 / 92
页数:5
相关论文
共 50 条
  • [31] Effects of Electrolytic Parameters on the Deposition of Boron at the Cathode During Molten Salt Electrolysis of Silicon
    Wang, Tao
    Tian, Zhongliang
    Yang, Shu
    Lai, Yanqing
    11TH INTERNATIONAL SYMPOSIUM ON HIGH-TEMPERATURE METALLURGICAL PROCESSING, 2020, : 93 - 100
  • [32] Recycling of Gold Using Anodic Electrochemical Deposition from Molten Salt Electrolyte
    Ouchi, T.
    Wu, S.
    Okabe, T. H.
    ELECTROCHEMICAL SOCIETY INTERFACE, 2020, 29 (04): : 43 - 43
  • [33] Recycling of Gold Using Anodic Electrochemical Deposition from Molten Salt Electrolyte
    Ouchi, Takanari
    Wu, Shuang
    Okabe, Toru H.
    JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 2020, 167 (12)
  • [34] Effect of Electrolysis Temperature on the Preparation of FeO by Molten Salt Electrolysis
    Jing, Zhenwei
    Luo, Chao
    Yan, Hongyan
    Meng, Ju
    Li, Chenxiao
    Li, Hui
    Liang, Jinglong
    CRYSTALS, 2022, 12 (08)
  • [35] Applications of molten salt and progress of molten salt electrolysis in secondary metal resource recovery
    Xi, Xiao-li
    Feng, Ming
    Zhang, Li-wen
    Nie, Zuo-ren
    INTERNATIONAL JOURNAL OF MINERALS METALLURGY AND MATERIALS, 2020, 27 (12) : 1599 - 1617
  • [36] Applications of molten salt and progress of molten salt electrolysis in secondary metal resource recovery
    Xiao-li Xi
    Ming Feng
    Li-wen Zhang
    Zuo-ren Nie
    International Journal of Minerals, Metallurgy and Materials, 2020, 27 : 1599 - 1617
  • [37] Applications of molten salt and progress of molten salt electrolysis in secondary metal resource recovery
    Xiao-li Xi
    Ming Feng
    Li-wen Zhang
    Zuo-ren Nie
    InternationalJournalofMineralsMetallurgyandMaterials, 2020, 27 (12) : 1599 - 1617
  • [38] Molten salt electrolysis for the recycling of pulping chemicals
    Wartena, R
    Winnick, J
    Pfromm, PH
    MOLTEN SALTS XIII, 2002, 2002 (19): : 366 - 379
  • [39] PREPARATION OF FeTi ALLOY BY ELECTROLYSIS IN MOLTEN SALT
    Hu, Meilong
    Bai, Chenguang
    Du, Jihong
    Shi, Ruimeng
    Lv, Xuewei
    Liu, Xuyang
    TMS2011 SUPPLEMENTAL PROCEEDINGS, VOL 1: MATERIALS PROCESSING AND ENERGY MATERIALS, 2011, : 193 - 201
  • [40] Preparation of lithium metal by molten salt electrolysis
    Hoh, Y.C.
    Chiu, T.M.
    Chung, Z.J.
    Pulp & Paper Canada, 1991, 92 (09)
12345