Electrochemical preparation of Al–Sm intermetallic compound whisker in LiCl–KCl Eutectic Melts

“…systematically studied the thermodynamical properties of lanthanides and actinides on liquid metal electrode in LiCl‐KCl system . Moreover, our team also reported the formation of Al−Sm, Al‐Pr and Zn‐Pr relevant research in this field.…”

Electrochemical Synthesis and Thermodynamic Properties of Pr‐Ni Intermetallic Compounds in a LiCl‐KCl‐NiCl₂‐PrCl₃ Melt

“…systematically studied the thermodynamical properties of lanthanides and actinides on liquid metal electrode in LiCl‐KCl system . Moreover, our team also reported the formation of Al−Sm, Al‐Pr and Zn‐Pr relevant research in this field.…”

Electrochemical Synthesis and Thermodynamic Properties of Pr‐Ni Intermetallic Compounds in a LiCl‐KCl‐NiCl₂‐PrCl₃ Melt

“…The reference electrode (RE) is a Ag/AgCl electrode composed of a high purity alumina tube containing AgCl (1 wt%) in LiCl−KCl (41 : 59 mol %) melts whose total weight is 7 g. The potential of the reference electrode was standardized against Ag + /Ag, and all of the potentials texted in the experiment were referred to this Ag/AgCl electrode couple. The reference electrode was used in a similar manner ,. Before carrying out the experiment, all electrodes were pretreated.…”

Electrochemical Mix‐Reduction Process of U and U‐Fe Alloys on the Surface of Cathode in LiCl‐KCl‐U₃O₈ at 773 K

“…In recent years, aluminum, magnesium, and other metals alloys have been directly prepared via the electrochemical reduction method. [9][10][11][12][13][14][15][16] In comparison to the traditional method, an electrochemical reduction method that uses inorganic molten salts as electrolytes has many advantages of mass production, simple procedure and low-energy consume. In this work, Mg-Li-based alloys were directly prepared via electrochemical reduction using inorganic molten salts as electrolytes.…”

“…Because the temperature of the molten salt system is evenly distributed, the electrolysis potential is easy to control in the electrolysis process, and the phase composition of specic intermetallic compounds can be controlled. 12,14 Furthermore, using electrochemical reduction with inorganic molten salts as electrolytes signicantly reduces the reaction temperature, and this leads to lower energy consumption. 17,18 In the past few years, the information about the preparation and formation of Mg-Li and Mg-Li-RE alloys by molten salt electrolysis has been reported by many researchers.…”

Electrochemical preparation and properties of a Mg–Li–Y alloyviaco-reduction of Mg(ii) and Y(iii) in chloride melts