MIT Department of Materials Science and Engineering
Friday, December 1, 2017
Abstract: Metals and metallurgy played a foundational role in the materials science we learn today, in particular to demonstrate how condensed matter physics allows the prediction of solid-state properties. Similar predictive capacity is lacking for the molten state, and liquid metals and molten oxide or sulfide are again remarkable candidates to progress in that endeavor.
Independently of this conceptual landscape, metals remain at the basis of modern society and their affordable and environmentally respectable extraction and recycling is required. In the context of 9 billion people by 2050 and issues such as greenhouse gas emissions, my research group aims at developing alternative approaches for metals extraction and processing. The electrochemistry of the molten state is an integral part of our endeavor, compatible with the deployment of sustainable electric power generation .
This seminar offers to report electrochemical studies of a subset of molten oxide [2,3] and sulfide  systems. Our results show that the molten state offers unique functionalities (enhanced mass transport, high conductivity, electronic conductivity, thermoelectric power) and that electrochemistry is uniquely positioned to probe the structure and physical chemistry of those systems. In addition, our results provide valuable thermodynamic information, and our experimental developments suggest a faster path to experimental data, along with an improvement in the prediction and modeling capacity of the molten state.
 A. Allanore, Contribution of Electricity to Materials Processing: Historical and Current Perspectives, JOM, 65(2), 131, (2013)
 A. Allanore, Features and Challenges of Molten Oxide Electrolytes for Metal Extraction, Journal of the Electrochemical Society, 162(1), 13-22, (2015)
 A. Allanore, L. Yin & D. R. Sadoway, A New Anode Material for Oxygen Evolution in Molten Oxide Electrolysis. Nature, 497(7449), 353–356, (2013)
 S. Sokhanvaran, S.-K. Lee, G. Lambotte & A. Allanore, Electrochemistry of Molten Sulfides: Copper Extraction from BaS-Cu2S. Journal of The Electrochemical Society, 163(3), 115–120, (2016)
Bio: Antoine Allanore is currently Associate Professor of Metallurgy in the Department of Materials Science & Engineering at MIT. He received his higher education in Nancy (France) where he earned a chemical process engineer diploma from Ecole Nationale Supérieure des Industries Chimiques and a M.Sc and PhD from Lorraine University. Dr. Allanore joined MIT in 2012 as a faculty, leading a research group that develops sustainable materials extraction and manufacturing processes. He has developed numerous alternative approaches for metals and minerals extraction and processing. With an emphasis on electrochemical methods for both analytical and processing purposes, his group combines experimental and modeling approaches to promptly investigate the ultimate state of condensed matter, the molten state. He teaches thermodynamics and sustainable chemical metallurgy at both the undergraduate and graduate level. He received the Vittorio de Nora Award from TMS in 2012, and the TMS Early Career Faculty Fellow Award in 2015.