Molten Salts Chemistry: From Lab to Applications - Hardcover

Über die Autorin bzw. den Autor

Henri Groult is Director of Research of CNRS-UPMC-ESPCI UMR 7612, University of Pierre and Marie Curie (Paris 6) in France. He has devoted his research life to fluorine chemistry, electrochemistry, and molten salt chemistry. His main research subjects are electrolytic production of fluorine gas, fluorine compounds for primary and secondary lithium batteries, and electrochemical properties of molten fluorides and chlorides. He has obtained interesting results on fluorine evolution reaction on carbon electrodes, discharge behavior of carbon-fluorine compounds, charge/discharge characteristics of metal fluorides, and electrochemical properties of molten salts. On these subjects, he published more than 100 papers and 7 books. His activity has played an important role in fluorine chemistry in France. He has served as Director of the French Network of Fluorine, Chairman of the 17th European Symposium on Fluorine Chemistry (Paris, July 2013), and Editorial board of J. Fluorine Chemistry.

Von der hinteren Coverseite

Molten salts and fused media: provide the key properties and the theory of molten salts, as well as aspects of fused salts chemistry, helping you generate new ideas and applications for fused salts.

This book examines how the electrical and thermal properties of molten salts, and generally low vapour pressure, are well adapted to high temperature chemistry, enabling fast reaction rates. It also explains how their ability to dissolve many inorganic compounds such as oxides, nitrides, carbides and other salts make molten salts ideal as solvents in electrometallurgy, metal coating, treatment of by-products and energy conversion.

This book also reviews newer applications of molten salts including materials for energy storage such as carbon nano-particles for efficient super capacitors, high capacity molten salt batteries and for heat transport and storage in solar plants. In addition, owing to their high thermal stability, they are considered as ideal candidates for the development of safer nuclear reactors and for the treatment of nuclear waste, especially to separate actinides from lanthanides by electrorefining.

Frédéric Lantelme developed the use of appropriate stable and radioactive isotope indicators to study the properties of ionic media oriented toward industrial applications (Aluminium, fluorine, refractory metals). He has actively participated to the pioneering work of numerical simulation of ionic media. He received the Pierre Süe award of the French Chemical Society.

Henri Groult is deeply involved in fundamental studies about the reaction mechanism of fluorine evolution in KF-2HF, this gas being used for the synthesis of UF₆ which allows the uranium enrichment. He develops also original routes in molten salts for the preparation of compounds (carbon, Sn-based alloys ) which are used as electrode materials in Li-ion battery.