| 低氧LiF–NdF3熔盐体系阳极过程的电化学行为研究 |
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| 作者姓名: | Chen-ming Fan Shi-zhe Liu Jing-jiu Gu Shi-you Guan Jin-hua Zhao Bing Li |
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| 作者单位: | 1)School of Mechanical and Power Engineering, East China University of Science and Technology, Shanghai 200237, China |
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| 基金项目: | This work was financially supported by the National Nat-ural Science Foundation of China |
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| 摘 要: | The oxidation of oxygen ions and the generation of an anode effect at a low oxygen content of 150 mg/kg were discussed in this paper. Cyclic voltammetry and square-wave voltammetry tests were conducted to explore the anodic processes of LiF–NdF3 melt after a lengthy period of pre-electrolysis purification at 1000°C (during which the oxygen content reduced from 413 to 150 mg/kg). The oxidation process of oxygen ions was found to have two stages: oxidation product adsorption and CO/CO2 gas evolution. The adsorption stage was controlled by diffusion, whereas the gas evolution was controlled by the electrochemical reaction. In comparison with oxygen content of 413 mg/kg, the decrease in the amplitude of the current at low oxygen content of 150 mg/kg was much gentler during the forward scanning process when the anode effect occurred. Fluorine-ion oxidation peaks that occurred at about 4.2 V vs. Li/Li+ could be clearly observed in the reverse scanning processes, in which fluorine ions were oxidized and perfluorocarbons were produced, which resulted in an anode effect.
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| 关 键 词: | ,,,,, |
Electrochemical investigation of the anode processes in LiF–NdF3 melt with low oxygen content |
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| Chen-ming Fan,Shi-zhe Liu,Jing-jiu Gu,Shi-you Guan,Jin-hua Zhao,Bing Li.Electrochemical investigation of the anode processes in LiF–NdF3 melt with low oxygen content[J].International Journal of Minerals,Metallurgy and Materials,2021,28(3):398-403. |
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| Authors: | Chen-ming Fan Shi-zhe Liu Jing-jiu Gu Shi-you Guan Jin-hua Zhao Bing Li |
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| Abstract: | The oxidation of oxygen ions and the generation of an anode effect at a low oxygen content of 150 mg/kg were discussed in this pa-per. Cyclic voltammetry and square-wave voltammetry tests were conducted to explore the anodic processes of LiF-NdF3 melt after a lengthy period of pre-electrolysis purification at 1000℃ (during which the oxygen content reduced from 413 to 150 mg/kg). The oxidation process of oxygen ions was found to have two stages: oxidation product adsorption and CO/CO2 gas evolution. The adsorption stage was controlled by diffusion, whereas the gas evolution was controlled by the electrochemical reaction. In comparison with oxygen content of 413 mg/kg, the de-crease in the amplitude of the current at low oxygen content of 150 mg/kg was much gentler during the forward scanning process when the an-ode effect occurred. Fluorine-ion oxidation peaks that occurred at about 4.2 V vs. Li/Li+ could be clearly observed in the reverse scanning pro-cesses, in which fluorine ions were oxidized and perfluorocarbons were produced, which resulted in an anode effect. |
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| Keywords: | LiF-NdF3 melt neodymium electrowinning low oxygen content anode processes |
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