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Meeting 2020 TMS Annual Meeting & Exhibition
Symposium Process Metallurgy and Electrochemistry of Molten Salts, Liquid Metal Batteries, and Extra-terrestrial Materials Processing: An EPD Symposium in Honor of Don Sadoway
Sponsorship TMS Extraction and Processing Division
TMS: Hydrometallurgy and Electrometallurgy Committee
TMS: Process Technology and Modeling Committee
TMS: Pyrometallurgy Committee
Organizer(s) Antoine Allanore, Massachusetts Institute of Technology
Hojong Kim, Pennsylvania State University
Takanari Ouchi, The University of Tokyo
Yasuhiro Fukunaka, JAXA/Waseda University
Scope Electrometallurgy 2020 in San Diego will host Sadoway 70, a Honorary Symposium dedicated to the innovative contributions of Prof. Donald Sadoway from MIT, encompassing process metallurgy and electrochemistry of molten salts, liquid metal batteries, or extra-terrestrial materials processing. Abstract submission to Electrometallurgy 2020 are by invitation only. Please contract the organizers for more information.
Abstracts Due 07/15/2019
Proceedings Plan Planned: Supplemental Proceedings volume
PRESENTATIONS APPROVED FOR THIS SYMPOSIUM INCLUDE

Application of Electronically Mediated Metallothermic Reductions in Molten Salts to Nuclear Materials
Are the Metallic Iron Inclusions Exist on the Surface of the Moon?
Better Living through Electrochemistry: A Career of Scientific Solutions and Pragmatism
Development of a New Electrodeposition Process based on Liquid Metal Electrochemical Technologies in Molten Salt Electrolytes
Electrochemical Processing under Extreme Conditions
Electrodeposition of Titanium from Alkali Fluoride-Chloride Molten Salts
Electrolytic Metals/alloys for Liquid Metal Batteries
Electrolytic Metals/alloys for Liquid Metal Batteries
Electrolytic Metals/alloys for Liquid Metal Batteries
Extraction of Magnesium from Aluminum Scrap Melts by Molten Salt Electrorefining
Fluid Mechanics of Liquid Metal Batteries: Overview and Outlook
Getting the Most from Models in High-Temperature Materials Processing
History of Inventions and Innovations for Aluminum Production
Hybrid Processes in Refining of Silicon
Innovative Ways to Chemically Process Rare-earth Waste Materials
Insights into the Oxidation Behavior of Cr1−xFex Anodes for Molten Oxide Electrolysis
Know Your Audience: Four Decades of Educational Innovation
Liquid Metal Batteries: From Concept to Commercialization
Lithium Metal Battery for Future Energy Storage
Low Cost Aqueous Zn-based Batteries for Energy Storage
Metallic Inert Anodes for Molten Carbonates Electrolysis Process
Molten Oxide Electrolysis for the Production of Ferroalloys and Steel
Open-circuit Explosions and Basement Thermite Fires Threaten Aluminum Potlines
Recovery of Metal Values from Wastes
Study of Electrode Performance Improvement with Infiltration of Electronic and Mixed-conducting Nanoparticles Employing Electrochemical Impedance Spectroscopy and I-V Measurements
Study on Electronically Mediated Reaction (EMR), and What I Learned from Professor Sadoway
Study on the Molten Salt CO2 Capture and Electrochemical Transformation (MSCC-ET) Process
The Application of the FFG Molten Salt Cycle on the Separation of the Refractory Metals
Thermodynamic and Kinetic Modelling of Molten Oxide Electrolysis Cells
Thermodynamics of Electrode Reactions for Energy Storage, Separation, and Corrosion
Titanium Extraction from Industrial Raw Material to Metal through Carbothermic Reduction and Molten Salts Electrolysis
Trends and Challenges for Electrowinning of Aluminium and Magnesium from Molten Salt Electrolytes


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