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Meeting 2021 TMS Annual Meeting & Exhibition
Symposium High Temperature Electrochemistry IV
Sponsorship TMS Extraction and Processing Division
TMS: Nuclear Materials Committee
TMS: Hydrometallurgy and Electrometallurgy Committee
Organizer(s) Prabhat K. Tripathy, Batelle Energy Alliance (Idaho National Laboratory)
Guy L. Fredrickson, Idaho National Laboratory
Scope High-temperature electrochemical processes are known to be technically challenging and yet technologically rewarding. Over past several decades, these processes have been deployed in many capital-intensive-power-generating industries, such as nuclear, fossil-fuel and geothermal. Besides, these processes are being routinely designed to synthesize advanced engineering materials and recover critical elements from a diverse range of waste materials. A resurgent interest in the arena of advanced nuclear reactor technologies has generated fresh impetus to the development of molten salt technologies. Exciting research results in used nuclear fuel reprocessing, fossil energy conversion, reversible fuel cells, gas separation and purification, emission(s) reduction, inexpensive materials manufacturing and recycling are being increasingly reported. The organizers feel that the time is now appropriate to hold the fourth biennial symposium, titled, “High Temperature Electrochemistry IV” in 2021 to discuss some of the recent advancements made in the field of materials electrochemistry. Topics covering all aspects of molten salt electrochemistry are being solicited. Specific topics include, but are not limited to, science and technology of molten salts as well as oxides, synthesis and characterization of advanced materials, molten salt electrowinning/refining, materials recycling, performance characteristic of nuclear/structural materials in nuclear reactors and electrolyte chemistry as applicable to molten salt rector technologies and used nuclear fuel reprocessing.
Abstracts Due 07/20/2020
Proceedings Plan Planned:

A Comparative Study of Working Electrode Materials for Voltammetry Measurements in LiCl–Li2O Salts
Advances in Solid Oxide Membrane Based Electrolysis for Solar-grade Silicon Deposition
Effect of Hydroxide and Oxide Impurities in Electrochemical Processes Using Molten LiCl and CaCl2
Electrochemical Reactions of Oxide Ions with Tungsten in Molten CaCl2
Feasibility of Potentiometry for Monitoring Activity of GdCl3 in Molten LiCl-KCl Salt
First-principles Molecular Dynamics and CALPHAD Modeling of the CaF2-MgF2-SiO2 Molten Salt System
Fundamental Challenges for the Development of Electrolytic Reduction of Uranium Oxide in Molten LiCl-Li2O
High-speed Electrodeposition of Textured Monolithic Lithiated Transition Metal Oxide Cathodes for Low Cost, High Energy, and Fast Charging Li-ion Batteries.
Interaction between Solute Species and Metallic Alloying Elements in Molten Chloride Systems
Investigation on Preparation of Fe-Al Alloys by Direct Reduction of Fe2O3-Al2O3 Powder in CaCl2-NaCl Molten Salt System
Liquid Bipolar Electrode for Extraction of Aluminium and PGM Concentrate from Spent Catalysts
Molten Hydroxide Mediated Electrosynthesis of Layered Transition Metal Oxides for Electrochemical Energy Storage
New Electrochemical Deoxidation Method of Ti Metal in Molten Salts Containing YCl3
Optimizing Reaction Selectivity in High Temperature Molten Electrolytes
Selective Extraction of Gold from Gold-copper Alloy Using Anodic Electrochemical Deposition in Molten Salt Electrolyte
Validated Modeling of Quartzite Reduction to Solar Silicon by Molten Salt Electrolysis

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