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Advanced Fluoride-Based Materials for Energy Conversion

Langue : Anglais

Coordonnateurs : Nakajima Tsuyoshi, Groult Henri

Couverture de l’ouvrage Advanced Fluoride-Based Materials for Energy Conversion

Advanced Fluoride-Based Materials for Energy Conversion provides thorough and applied information on new fluorinated materials for chemical energy devices, exploring the electrochemical properties and behavior of fluorinated materials in lithium ion and sodium ion batteries, fluoropolymers in fuel cells, and fluorinated carbon in capacitors, while also exploring synthesis applications, and both safety and stability issues.

As electronic devices, from cell phones to hybrid and electric vehicles, are increasingly common and prevalent in modern lives and require dependable, stable chemical energy devices with high-level functions are becoming increasingly important. As research and development in this area progresses rapidly, fluorine compounds play a critical role in this rapid progression. Fluorine, with its small size and the highest electronegativity, yields stable compounds under various conditions for utilization as electrodes, electrolytes, and membranes in energy devices.

The book is an ideal reference for the chemist, researcher, technician, or academic, presenting valuable, current insights into the synthesis of fluorine compounds and fluorination reactions using fluorinating agents.

Chapter 1 High performance of lithium ion batteries using fluorine compounds Chapter 2 Electrochemical behavior of surface-fluorinated cathode materials for lithium ion battery Chapter 3 Fluoride cathodes for lithium ion battery Chapter 4 Fluoro-sulfates and -phosphates as new cathode materials for lithium ion battery Chapter 5 Ionic liquids, ionic crystals, and plastic crystals of fluorohydrogenates Chapter 6 Syntheses of new components for lithium battery electyrolytes: solvents, conductive salts, and additives Chapter 7 Safety improvement of lithium ion battery by organo-fluorine compounds Chapter 8 Artificial SEI for anode materials: fluorinated and non-fluorinated additives Chapter 9 Surface modification of carbon anodes for lithium ion batteries by fluorine and chlorine Chapter 10 New PVDF binders for lithium ion battery Chapter 11 Enhancement of the electrochemical performances of graphite fluorides by electro-polymerization Chapter 12 New nano-C-F compounds for non-rechargeable lithium battery Chapter 13 Fluoro-polymers for fuel cell applications Chapter 14 Fluoro-polymers for electrochemical applications Chapter 15 Surface-fluorinated carbon materials for super-capacitors Chapter 16 Fluorine compounds for Na batteries Chapter 17 Application of carbon materials derived from fluorocarbons to electrochemical capacitor

Inorganic fluorine chemists and electrochemists: industry researchers and technicians, university professors and graduate students, researchers and technicians of research institutes

Tsuyoshi Nakajima is Professor in the Department of Applied Chemistry, Aichi Institute of Technology in Japan. He has worked on fluorine chemistry and electrochemistry (that is, fluorinated materials) for primary and rechargeable lithium batteries, and fluorine-, fluoride-, or oxyfluoride-graphite intercalation compounds. Li/(CF)n battery is the first primary lithium battery commercialized on the basis of the research on graphite fluoride which was performed in his laboratory at Kyoto University. His research was on the discharge mechanism of Li/(CF)n battery and synthesis of graphite fluoride, (CF)n with excellent discharge performance. The importance of carbon-fluorine compounds as battery materials was first recognized by graphite fluoride cathode of Li/(CF)n battery. Furthermore, new graphite anode for electrolytic production of fluorine gas was developed on the basis of his work on fluorine-graphite intercalation compound with high electrical conductivity. Recently. his research interest is on the application of fluorine chemistry to rechargeable lithium batteries. Fluorination techniques were applied to surface modification of graphite anode which increases the capacities of graphite anode and enables the low temperature operation of lithium ion battery. For the application of lithium ion battery using flammable organic solvents to electric sources of hybrid and electric vehicles, high safety is the most important issue. He has found that organo-fluorine compounds are excellent new solvents with high oxidation stability (that is, high safety for rechargeable lithium batteries). He published about 230 papers and 24 books. In academic societies, he served as chairman of JSPS 155th Committee on Fluorine Chemistry; The Society of Fluorine Chemistry, Japan; Executive Committee of Carbon Society of Japan; and Regional Editor and Editorial Board of J. Fluorine Chemistry.
Henri Groult is Director of Research of CNRS-UPMC-ESPCI UMR 7612, University of Pierre and Ma
  • Provides thorough and applied information on new fluorinated materials for chemical energy devices
  • Describes the emerging role of stable energy devices with high-level functions and the research surrounding the technology
  • Ideal for the chemist, research, technician, or academic seeking current insights into the synthesis of fluorine compounds and fluorination reactions using fluorinating agents

Date de parution :

Ouvrage de 458 p.

15x22.8 cm

Disponible chez l'éditeur (délai d'approvisionnement : 14 jours).

158,56 €

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