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作者 Dahlin, Greger R
書名 Lithium Batteries : Research, Technology and Applications
出版項 Hauppauge : Nova Science Publishers, Incorporated, 2010
©2010
國際標準書號 9781616685171 (electronic bk.)
9781607417224
book jacket
說明 1 online resource (240 pages)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
系列 Electrical Engineering Developments
Electrical Engineering Developments
附註 Intro -- LITHIUM BATTERIES: RESEARCH, TECHNOLOGY AND APPLICATIONS -- LITHIUM BATTERIES: RESEARCH, TECHNOLOGY AND APPLICATIONS -- CONTENTS -- PREFACE -- Chapter 1 LIFEPO4 CATHODE MATERIALS FOR LITHIUM-ION BATTERIES -- 1. INTRODUCTION -- 2. SYNTHESIS METHOD OF LIFEPO4 CATHODE MATERIALS -- 2.1. Solid-State Reaction -- 2.2. Hydrothermal Method -- 2.3. Co-Precipitation -- 2.4. Emulsion-Drying Method -- 2.5. Sol-Gel Method -- 2.6. Mechanical Alloying -- 2.7. Microwave Processing -- 2.8. Other Synthesis Methods -- 3. HOW TO IMPROVE ELECTROCHEMICAL PERFORMANCE OF LIFEPO4 CATHODE MATERIALS -- 3.1. Effect of Particle Size and Morphology on Electrochemical Performance of LiFePO4 -- 3.2. Substitution of Li+ or Fe2+ with Cations -- 3.3. Effect of Carbon Coating and Metal or Metal Oxide Mixing on Charge/Discharge Performance of LiFePO4 -- 4. SUMMARY AND FUTURE PROSPECT -- 5. ACKNOWLEDGMENTS -- REFERENCES -- Chapter 2 INORGANIC CATHODE MATERIALS FOR LITHIUM ION BATTERIES -- 1. INTRODUCTION -- 2. LAYERED LITHIUM METAL OXIDES -- 2.1 Introduction -- 2.2 LiNiO2 -- 2.2.1 Problems with LiNiO2 -- 2.2.2 Synthesis of stoichiometric LiNiO2-based materials -- 2.2.3 Structural stability of delithiated LiNiO2-based materials -- 2.2.4 Thermal stability of delithiated LiNiO2-based materials -- 2.3 LiMnO2 -- 2.3.1 Challenges of LiMnO2 -- 2.3.2 Development of monoclinic LiMnO2 cathode materials -- 2.3.3 Development of orthorhombic LiMnO2 cathode materials -- 2.4 Mixed Transition Metal Dioxides -- 3 SPINEL LITHIUM MANGANESE OXIDES -- 3.1 Introduction -- 3.2 LiMn2O4 -- 3.2.1 Problems with LiMn2O4 -- 3.2.2 Modification of LiMn2O4 -- 4 OLIVINE LITHIUM METAL PHOSPHATES -- 4.1 Introduction -- 4.2 LiFePO4 -- 4.2.1 Problems with LiFePO4 -- 4.2.2 Synthesis methods for LiFePO4 -- 4.2.3 Electrochemical performance upgrading of LiFePO4 -- 4.3 LiMPO4 (M = Mn, Co, Ni) -- 5 CONCLUSION
REFERENCES -- Chapter 3 ANALYSIS OF CELL IMPEDANCE FOR THE DESIGNOF A HIGH-POWER LITHIUM-ION BATTERY -- ABSTRACT -- I. INTRODUCTION -- II. OVERVIEW OF HIGH POWER CELL DESIGN -- III. TIME-DEPENDENT CONTRIBUTION OF REACTION STEPS TO TOTAL POLARIZATION -- 1. Overview of the Approach -- 2. Model Case: Analysis on Hypothetical Electrode in LIB -- IV. IN-DEPTH DIAGNOSIS OF THE BATTERY WITH DEGRADED POWER -- 1. Cell Configuration and Electrochemical Test Procedures -- 2. Analysis Based on a Two-Electrode Electrochemical Cell and its Limitation -- 3. Analysis Based on a Three-Electrode Electrochemical Cell -- V. CRITICAL FACTORS FOR LOW-TEMPERATURE POWER DECLINE -- 1. Brief Description of Electrochemical Test Procedures -- 2. Effect of Temperature on Total and Elementary Polarizations -- 3. Power Performance of Hybrid Electrodes -- VI. CONCLUSION -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 4 CHEMICAL OVERCHARGE PROTECTION OF LITHIUM-ION CELLS -- ABSTRACT -- INTRODUCTION -- COMPARISON OF AVAILABLE TECHNOLOGIES -- HISTORICAL REVIEW -- STABILITY OF REDOX SHUTTLES -- Electronic Stability -- Structural Stability -- EXAMPLES OF STABLE REDOX SHUTTLES -- Aromatic Redox Shuttles -- Non-Aromatic Redox Shuttles -- CONCLUSION -- ACKNOWLEDGMENT -- REFERENCES -- Chapter 5 THERMAL STABILITY AND ELECTROCHEMICAL PERFORMANCE OF LICOO2 AND LICO0.2NI0.8O2 IN LITHIUM-ION BATTERIES -- ABSTRACT -- 1. INTRODUCTION -- 2. MEASUREMENT OF THERMAL STABILITY -- 2.1. Differential Scanning Calorimetry -- 2.2. Accelerating Rate Calorimetry -- 3. HAZARD TRIGGERS -- 3.1. Temperature Coefficient of Cell Voltage -- 3.2. Cell Design -- 3.3. Electrolyte -- 3.4. Active Materials -- 4. LICOO2 -- 4.1. Coated LiCoO2 Cathodes -- 5. LICO0.2NI0.8O2 -- 5.1. Substituted LiNiyCo1-yO2 Compositions -- 5.2. Coated LiNiyCo1-yO2 Compositions -- 6. CONCLUSIONS -- REFERENCES
Chapter 6 COMPOSITIONAL AND STRUCTURAL EVOLUTION OF CATHODE PARTICLES OF THE CYCLED LITHIUM BATTERIES INVESTIGATED BY ANALYTICAL HIGH RESOLUTION TRANSMISSION ELECTRON MICROSCOPY(AHRTEM) -- 1. INTRODUCTION -- 1.1 The Cathode of Lithium Battery is the Li+ Source and Sinks -- 1.2 The Compositional and Structural Feature of Surface of a Cathode Particle -- 1.3 Fundamental Structural and Compositional Relationships between the NaFeO2 and LiMO2 (M=Co,Ni,Mn) -- 1.4 Analytical High Resolution Transmission Electron Microscopy (AHRTEM) is a Powerful Tool for Revealing Composition and Structure Variation of the Cathode Particles of a Cycled Lithium Battery at Atomic Scale -- 2. BASIC EXPERIMENT TECHNIQUES -- 2.1 Preparation of the Cycled Cathode Particles for AHRTEM -- 2.2 Micro-Diffraction and Micro-Analysis of the Cycled Cathode Particles -- 2.3 One- and Two- Dimension Lattices Images and Analysis -- 3. COMPOSITIONAL AND STRUCTURAL EVOLUTION OF THE CATHODE CYCLED PARTICLES OF THE LITHIUM BATTERIES -- 3.1 LiCoO2 -- 3.2 LiNi1/3Co1/3Mn1/3O2 -- 3.3 LiNi0.8Co0.2O2 -- 4. DISCUSSION AND CONCLUSION -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 7 SOFT SOLUTION PROCESSING OF NANOSCALED LITHIUM VANADIUM OXIDES AS CATHODE MATERIALS FOR RECHARGEABLE LITHIUM ION BATTERIES -- ABSTRACT -- INTRODUCTION -- LI1+XV3O8 -- Introduction -- Experimental Section -- Synthesis and characterization of LiV3O8 -- Electrochemical measurements -- Results and Discussion -- TGA result -- The XRD and the Structure of LiV3O8 -- The morphology of the as-synthesized LiV3O8 -- FTIR of the as-synthesized LiV3O8 -- Electrochemical properties of the as-synthesized LiV3O8 -- CONCLUSION -- -LIV2O5 -- Introduction -- Experimental Section -- Synthesis and characterization of -LiV2O5 -- Electrochemical measurements -- Results and Discussion
The XRD results and the kinetic processing of the formation of -LiV2O5 -- FTIR of the as-synthesized -LiV2O5 -- XPS of the as-synthesized -LiV2O5 -- The morphologies of the as-synthesized -LiV2O5 -- Electrochemical properties of the as-synthesized -LiV2O5 -- CONCLUSION -- REFERENCE -- Chapter 8 ADVANCED LITHIUM-ION BATTERIES FOR PLUG-IN HYBRID-ELECTRIC VEHICLES -- ABSTRACT -- 1. INTRODUCTION -- 2. STATUS OF ADVANCED BATTERY DEVELOPMENT -- 3. SPINEL-TITANATE BATTERY PERFORMANCE MODELING -- 3.1 Approach -- 3.2 Experimental Data -- 3.3 Battery Design Modeling -- 3.4 Impedance Modeling -- 4. VEHICLE SIMULATION FOR HIGH-POWER BATTERIES -- 4.1 Approach -- 4.2 Vehicle Characteristics -- 4.3 Component Sizing Algorithm -- 4.4 Control Strategy Philosophy -- 4.5 Fuel Economy Results -- (1) Engine started during the first cycle -- 5. CONCLUSIONS -- 6. ACKNOWLEDGMENTS -- 7. REFERENCES -- INDEX -- Blank Page
Description based on publisher supplied metadata and other sources
Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2020. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries
鏈接 Print version: Dahlin, Greger R. Lithium Batteries: Research, Technology and Applications Hauppauge : Nova Science Publishers, Incorporated,c2010 9781607417224
主題 Lithium cells
Electronic books
Alt Author Strøm, Kalle E
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