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Grâce à l'amélioration de leurs performances et la diminution de leur coût de fabrication, les accumulateurs au lithium initialement commercialisés en 1991 par SONY pour alimenter les équipements portables, jouent désormais un rôle-clef dans le développement massif attendu de la mobilité électrique. Connectées au réseau électrique via les véhicules électrifiés dans lesquels elles seront embarquées, les batteries au lithium seront de surcroît utilisées comme moyen massif de stockage tampon des énergies renouvelables, ainsi que comme outils de soutien au réseau (effacement des heures de pointe, régulation de fréquence...), permettant, au-delà de leur fonction première (assurer la mobilité du véhicule), de démultiplier leur utilité. Ces évolutions vont profondément transformer nos sociétés, et permettre non seulement de réduire très significativement les émissions de CO2 et la consommation d'énergies fossiles (pétrole, gaz, charbon), mais également, si elles sont conduites et coordonnées efficacement, de contribuer à la croissance économique. Le développement de la mobilité électrique offre ainsi une opportunité unique de faire coïncider des exigences légitimes de protection de l'environnement avec des objectifs de développement industriel. Cet ouvrage a pour objectif d'offrir au lecteur une vue d'ensemble des technologies d'accumulateurs au lithium, de fournir un état des lieux des initiatives en cours dans le monde, et de dresser quelques perspectives pour l'avenir. Chercheurs au CEA et au CNRS, les auteurs de cet ouvrage disposent, tous, d'une expertise fondée sur plusieurs années d'expérience dans le développement des filières d'accumulateurs au lithium et des filières post lithium-Ion, sur l'ensemble des éléments de la chaîne de la valeur, depuis le design et la synthèse des matériaux d'électrodes, jusqu'à l'intégration dans le véhicule.
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There have been numerous excellent books on LIBs based on various different viewpoints. But, there is little book available on the state of the art and future of next generation LIBs, particularly eventually for EVs and HEVs. This book is therefore planned to show the readers where we are standing on and where our R&Ds are directing at as much as possible. This does not mean that this book is only for the experts in this field. On the contrary this book is expected to be a good textbook for undergraduates and postgraduates who get interested in this field and hence need general overviews on the LIBs, especially for heavy duty applications including EVs or HEVs.
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"Lithium-Ion Battery Chemistries: A Primer offers a simple description on how different lithium-ion battery chemistries work, along with their differences. It includes a refresher on the basics of electrochemistry and thermodynamics, and an understanding of the fundamental processes that occur in the lithium-ion battery. Furthermore, it reviews each of the major chemistries that are in use today, including Lithium-Iron Phosphate (LFP), Lithium-Cobalt Oxide (LCO), Lithium Manganese Oxide (LMO), Lithium-Nickel Manganese Cobalt (NMC), Lithium-Nickel Cobalt Aluminium (NCA), and Lithium-Titanate Oxide (LTO) and outlines the different types of anodes, including carbon (graphite, hard carbon, soft carbon, graphene), silicon, and tin. In addition, the book offers performance comparisons of different chemistries to help users select the right battery for the right application and provides explanations on why different chemistries have different performances and capabilities. Finally, it offers a brief look at emerging and beyond-lithium chemistries, including lithium-air, zinc-air, aluminum air, solid-state, lithium-sulfur, lithium-glass, and lithium-metal"--Back cover.
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The eight chapters in this book cover topics on advanced anode and cathode materials, materials design, materials screening, electrode architectures, diagnostics and materials characterization, and electrode/electrolyte interface characterization for lithium batteries. All these topics were carefully chosen to reflect the most recent advances in the science and technology of rechargeable Li-ion batteries, to provide wide readership with a platform of subjects that will help in the understanding of current technologies, and to shed light on areas of deficiency and to energize prospects for future advances.
Lithium ion batteries. --- Cells, Lithium ion --- Electrochemical cells, Lithium ion --- LIBs (Lithium ion batteries) --- Li-ion batteries --- Lithium ion cells --- Lithium ion electrochemical cells --- Storage batteries --- Engineering --- Physical Sciences --- Engineering and Technology --- Electrical and Electronic Engineering --- Power Electronics
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Anodes. --- Silicon --- Lithium ion batteries --- Electric properties. --- Materials. --- Cells, Lithium ion --- Electrochemical cells, Lithium ion --- LIBs (Lithium ion batteries) --- Li-ion batteries --- Lithium ion cells --- Lithium ion electrochemical cells --- Storage batteries --- Electrodes
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This book describes in detail the use of natural cellulose fibers for the production of innovative, low-cost, and easily recyclable lithium-ion (Li-ion) cells by means of fast and reliable papermaking procedures that employ water as a solvent. In addition, it proposes specific methods to optimize the safety features of these paper-based cells and to improve the electronic conductivity of the electrodes by means of a carbonization process– an interesting novel technology that enables higher current rate capabilities to be achieved. The in-depth descriptions of materials, methods, and techniques are complemented by the inclusion of a general overview of electrochemical devices and, in particular, of different Li-ion battery configurations. Presenting the outcomes of this important research, the work is of wide interest to electrochemical engineers in both research institutions and industry.
Engineering. --- Energy storage. --- Electrochemistry. --- Engineering --- Nanotechnology. --- Materials Engineering. --- Energy Storage. --- Materials. --- Lithium ion batteries. --- Cells, Lithium ion --- Electrochemical cells, Lithium ion --- LIBs (Lithium ion batteries) --- Li-ion batteries --- Lithium ion cells --- Lithium ion electrochemical cells --- Storage batteries --- Chemistry. --- Physical sciences --- Molecular technology --- Nanoscale technology --- High technology --- Engineering—Materials. --- Chemistry, Physical and theoretical --- Storage of energy --- Force and energy --- Power (Mechanics) --- Flywheels --- Pulsed power systems
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