Add to ORKGThe electrochemical formation of Dy-Ni alloys was investigated in a molten LiF-CaF2-DyF3 (0.30 mol%) system at 1123 K. Cyclic voltammetry and open-circuit potentiometry indicated the formation of several phases of Dy-Ni alloys. Potentiostatic electrolysis was conducted to prepare an alloy sample using a Ni-plate electrode at 0.20 V vs. Li+/Li for 120 min. Cross-sectional scanning electron microscopy revealed that the Ni plate was partially transformed into a Dy-Ni alloy. X-ray diffraction analysis confirmed that DyNi2 was the predominant phase and DyNi3 the minor phase in the alloy. When the electrolytic potential was kept at 0.45 V and 0.62 V for 110 min after electrolysis at 0.20 V for 130 min, the resultant phases were DyNi3 and DyNi5, r...
The chemical stability of Dy2O3 in molten CaCl2 was studied by confocal scanning laser microscopy. R...
The oxidation behaviors of Ni and Ni-Co alloy electrodes were investigated using simple electrochemi...
The electrochemical behaviour of AlF3 was investigated in LiF-CaF2 medium first with inert tungsten ...
For the establishment of a process for the electrochemical recovery of rare earth elements from used...
For the establishment of a process for the electrochemical recovery of rare earth elements from used...
The electrochemical formation of Dy–Ni alloys was investigated in molten CaCl2–DyCl3 (1.0 mol%) at 1...
The electrochemical reduction of Nd(III) in molten LiF-CaF2 media was investigated on different elec...
The electrochemical formation of Nd-Ni alloys was investigated in a molten LiF-CaF₂-NdF₃ (0.30 mol%)...
The electrochemical behaviour of dysprosium(III) was investigated in the LiF–CaF2 eutectic mixture o...
The reduction of Y(III) ions in molten chloride is known to be a one-step three electron reaction [1...
The temperature dependence of the coexisting phase potentials of various Nickel–Dysprosium (Ni–Dy) i...
In the present study, as a fundamental study for recycling Nd from Nd-Fe-B permanent magnet scrap, t...
The electrochemical behavior of Zr4+ was investigated in LiF-NaF between 923 and 1123 K. With an ine...
Molten fluorides are appealing coolants for innovative nuclear systems but structural alloys may und...
Published on behalf of The Electrochemical Society by IOP Publishing Limited. The electrochemical fo...
The chemical stability of Dy2O3 in molten CaCl2 was studied by confocal scanning laser microscopy. R...
The oxidation behaviors of Ni and Ni-Co alloy electrodes were investigated using simple electrochemi...
The electrochemical behaviour of AlF3 was investigated in LiF-CaF2 medium first with inert tungsten ...
For the establishment of a process for the electrochemical recovery of rare earth elements from used...
For the establishment of a process for the electrochemical recovery of rare earth elements from used...
The electrochemical formation of Dy–Ni alloys was investigated in molten CaCl2–DyCl3 (1.0 mol%) at 1...
The electrochemical reduction of Nd(III) in molten LiF-CaF2 media was investigated on different elec...
The electrochemical formation of Nd-Ni alloys was investigated in a molten LiF-CaF₂-NdF₃ (0.30 mol%)...
The electrochemical behaviour of dysprosium(III) was investigated in the LiF–CaF2 eutectic mixture o...
The reduction of Y(III) ions in molten chloride is known to be a one-step three electron reaction [1...
The temperature dependence of the coexisting phase potentials of various Nickel–Dysprosium (Ni–Dy) i...
In the present study, as a fundamental study for recycling Nd from Nd-Fe-B permanent magnet scrap, t...
The electrochemical behavior of Zr4+ was investigated in LiF-NaF between 923 and 1123 K. With an ine...
Molten fluorides are appealing coolants for innovative nuclear systems but structural alloys may und...
Published on behalf of The Electrochemical Society by IOP Publishing Limited. The electrochemical fo...
The chemical stability of Dy2O3 in molten CaCl2 was studied by confocal scanning laser microscopy. R...
The oxidation behaviors of Ni and Ni-Co alloy electrodes were investigated using simple electrochemi...
The electrochemical behaviour of AlF3 was investigated in LiF-CaF2 medium first with inert tungsten ...