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Lithium batteries [electronic resource] : science and technology / Christian Julien, Alain Mauger, Ashok Vijh and Karim Zaghib.

Julien, Christian, author.; Mauger, Alain, author.; Vijh, Ashok, author.; Zaghib, Karim, author.
2016
TK2945.L58
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Title
Lithium batteries [electronic resource] : science and technology / Christian Julien, Alain Mauger, Ashok Vijh and Karim Zaghib.
Author
Julien, Christian, author.
ISBN
9783319191089 (electronic book)
331919108X (electronic book)
9783319191072
3319191071
DOI
https://doi.org/10.1007/978-3-319-19108-9
Published
Cham : Springer, [2016]
Copyright
©2016
Language
English
Description
1 online resource.
Item Number
10.1007/978-3-319-19108-9 doi
Call Number
TK2945.L58
Dewey Decimal Classification
621.3/12424
Summary
The book focuses on the solid-state physics, chemistry and electrochemistry that are needed to grasp the technology of and research on high-power Lithium batteries. After an exposition of fundamentals of lithium batteries, it includes experimental techniques used to characterize electrode materials, and a comprehensive analysis of the structural, physical, and chemical properties necessary to insure quality control in production. The different properties specific to each component of the batteries are discussed in order to offer manufacturers the capability to choose which kind of battery should be used: which compromise between power and energy density and which compromise between energy and safety should be made, and for which cycling life. Although attention is primarily on electrode materials since they are paramount in terms of battery performance and cost, different electrolytes are also reviewed in the context of safety concerns and in relation to the solid-electrolyte interface. Separators are also reviewed in light of safety issues. The book is intended not only for scientists and graduate students working on batteries but also for engineers and technologists who want to acquire a sound grounding in the fundamentals of battery science arising from the interaction of electrochemistry, solid state materials science, surfaces and interfaces.
Bibliography, etc. Note
Includes bibliographical references and index.
Access Note
Access limited to authorized users.
Source of Description
Online resource; title from PDF title page (viewed October 2, 2015).
Added Author
Mauger, Alain, author.
Vijh, Ashok, author.
Zaghib, Karim, author.
Available in Other Form
Lithium Batteries : Science and Technology
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Preface; Contents; Chapter 1: Basic Elements for Energy Storage and Conversion; 1.1 Energy Storage Ability; 1.2 The Sustained Energy; 1.3 Energy Storage for Nano-electronics; 1.4 Energy Storage; 1.5 Brief History of Electrochemical Cells; 1.5.1 Milestones; 1.5.2 Battery Designs; 1.6 Key Parameters of Batteries; 1.6.1 Basic Parameters; 1.6.2 Cycle Life and Calendar Life; 1.6.3 Energy, Capacity and Power; 1.6.3.1 Modified Peukert Plot; 1.6.3.2 Ragone Figure; 1.7 Electrochemical Systems; 1.7.1 Batteries; 1.7.2 Electrochromics and Smart Windows; 1.7.3 Supercapacitors; 1.8 Concluding Remarks

2.3.4 Solid Cathode Lithium Batteries2.3.4.1 Lithium Polycarbon Fluoride Cells; 2.3.4.2 Lithium Manganese Oxide Batteries; 2.3.4.3 Low Temperature Lithium Iron Batteries; 2.3.4.4 Silver Vanadium Oxide Cells; 2.3.4.5 Other Primary Lithium Batteries; 2.4 Secondary Lithium Batteries; 2.4.1 Lithium-Metal Batteries; 2.4.2 Lithium-Ion Batteries; 2.4.2.1 Principle; 2.4.2.2 Energy Diagram; 2.4.2.3 Design and Manufacturing; 2.4.3 Lithium Polymer Batteries; 2.4.4 Lithium-Sulfur Batteries; 2.5 Economy of Lithium Batteries; 2.6 Battery Modeling; References; Chapter 3: Principles of Intercalation

3.1 Introduction3.2 Intercalation Mechanism; 3.3 The Gibbs ́Phase Rule; 3.4 Classification of Intercalation Reactions; 3.4.1 The Perfectly Nonstoichiometric Compounds: Type-I Electrode; 3.4.2 The Pseudo Two-Phase System: Type-II Electrode; 3.4.3 The Two-Phase System: Type-III Electrode; 3.4.4 The Adjacent Domain: Type-IV Electrode; 3.5 Intercalation in Layered Compounds; 3.5.1 Synthesis of ICs; 3.5.2 Alkali Intercalation into Layered Compounds; 3.6 Electronic Energy in ICs; 3.7 Origin of the High Voltage in ICs; 3.8 Lithium Battery Cathodes; 3.9 Conversion Reaction; 3.10 Alloying Reaction

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