Supercapacitors (eBook)
X, 528 Seiten
Wiley-VCH (Verlag)
978-3-527-64668-5 (ISBN)
Sustainable Energy and Development edited by Prof. G.Q. Max Lu. The series covers advances in materials science and innovation for renewable energy, clean use of fossil energy, and greenhouse gas mitigation and associated environmental technologies.
François Béguin is Professor of Materials Chemistry at Orléans University, France. His research activities are devoted to chemical and electrochemical applications of carbon materials, with special attention to the development of nano-carbons with controlled porosity and surface functionality for applications in energy conversion/storage and environment protection. He has published over 230 papers, owns several patents, and his works have been cited over 3000 times. Beguin is the Director of two national programmes in the French Agency for Research (ANR), one on Energy Storage (Stock-E), the other on Hydrogen and Fuel Cells (H-PAC). Elzbieta Frackowiak is a full professor at Poznan University of Technology, Poland. She is an electrochemist, with research interests focused on energy storage/conversion. Frackowiak has more than 150 publications and 2800 citations to her name, and is Chair Elect of Division 3 (Electrochemical Energy Conversion and Storage) of the International Society of Electrochemistry.
GENERAL PRINCIPLES OF ELECTROCHEMISTRY
Equilibrium Electrochemistry
Ionics
Dynamic Electrochemistry
GENERAL PROPERTIES OF ELECTROCHEMICAL CAPACITORS
Introduction
Capacitor Principles
Electrochemical Capacitors
Summary
ELECTROCHEMICAL TECHNIQUES
Electrochemical Apparatus
Electrochemical Cell
Electrochemical Interface: Supercapacitors
Most Used Electrochemical Techniques
ELECTRICAL DOUBLE-LAYER CAPACITORS AND CARBONS FOR EDLCS
Introduction
The Electrical Double Layer
Types of Carbons Used for EDLCs
Capacitance versus Pore Size
Evidence of Desolvation of Ions
Performance Limitations: Pore Accessibility or Saturation of Porosity
Beyond the Double-Layer Capacitance in Microporous Carbons
Conclusions
MODERN THEORIES OF CARBON-BASED ELECTROCHEMICAL CAPACITORS
Introduction
Classical Theories
Recent Developments
Concluding Remarks
ELECTRODE MATERIALS WITH PSEUDOCAPACITIVE PROPERTIES
Introduction
Conducting Polymers in Supercapacitor Application
Metal Oxide/Carbon Composites
Pseudocapacitive Effect of Heteroatoms Present in the Carbon Network
Nanoporous Carbons with Electrosorbed Hydrogen
Electrolytic Solutions - A Source of Faradaic Reactions
Conclusions - Profits and Disadvantages of Pseudocapacitive Effects
LI-ION-BASED HYBRID SUPERCAPACITORS IN ORGANIC MEDIUM
Introduction
Voltage Limitation of Conventional EDLCs
Hybrid Capacitor Systems
Material Design for NHC
Conclusion
ASYMMETRIC AND HYBRID DEVICES IN AQUEOUS ELECTROLYTES
Introduction
Aqueous Hybrid (Asymmetric) Devices
Aqueous Asymmetric Electrochemical Capacitors
Tantalum Oxide-Ruthenium Oxide Hybrid Capacitors
Perspectives
EDLCS BASED ON SOLVENT-FREE IONIC LIQUIDS
Introduction
Carbon Electrode/Ionic Liquid Interface
Ionic Liquids
Carbon Electrodes
Supercapacitors
Concluding Remarks
MANUFACTURING OF INDUSTRIAL SUPERCAPACITORS
Introduction
Cell Components
Cell Design
Module Design
Conclusions and Perspectives
SUPERCAPACITOR MODULE SIZING AND HEAT MANAGEMENT UNDER ELECTRIC, THERMAL, AND AGING CONSTRAINTS
Introduction
Electrical Characterization
Thermal Modeling
Supercapacitor Lifetime
Supercapacitor Module Sizing Methods
Applications
TESTING OF ELECTROCHEMICAL CAPACITORS
Introduction
Summaries of DC Test Procedures
Applicatin of the Test Procedures to Carbon/Carbon Devices
Testing of Hybrid, Pseudocapacitive Devices
Relationships between AC Impedance and DC Testing
Uncertainties in Ultracapacitor Data Interpretation
Summary
RELIABILITY OF ELECTROCHEMICAL CAPACITORS
Introduction
Reliability Basics
Cell Reliability
System Reliability
Assessment of Cell Reliability
Reliability of Practical Systems
Increasing System Reliability
System Design Example
MARKET AND APPLICATIONS OF ELECTROCHEMICAL CAPACITORS
Introduction: Principles and History
Commerical Designs: DC Power Applications
Energy Conservation and Energy Harvesting Applications
Technology Combination Applications
Electricity Grid Applications
Conclusions
GENERAL PRINCIPLES OF ELECTROCHEMISTRY
Equilibrium Electrochemistry
Ionics
Dynamic Electrochemistry
GENERAL PROPERTIES OF ELECTROCHEMICAL CAPACITORS
Introduction
Capacitor Principles
Electrochemical Capacitors
Summary
ELECTROCHEMICAL TECHNIQUES
Electrochemical Apparatus
Electrochemical Cell
Electrochemical Interface: Supercapacitors
Most Used Electrochemical Techniques
ELECTRICAL DOUBLE-LAYER CAPACITORS AND CARBONS FOR EDLCS
Introduction
The Electrical Double Layer
Types of Carbons Used for EDLCs
Capacitance versus Pore Size
Evidence of Desolvation of Ions
Performance Limitations: Pore Accessibility or Saturation of Porosity
Beyond the Double-Layer Capacitance in Microporous Carbons
Conclusions
MODERN THEORIES OF CARBON-BASED ELECTROCHEMICAL CAPACITORS
Introduction
Classical Theories
Recent Developments
Concluding Remarks
ELECTRODE MATERIALS WITH PSEUDOCAPACITIVE PROPERTIES
Introduction
Conducting Polymers in Supercapacitor Application
Metal Oxide/Carbon Composites
Pseudocapacitive Effect of Heteroatoms Present in the Carbon Network
Nanoporous Carbons with Electrosorbed Hydrogen
Electrolytic Solutions - A Source of Faradaic Reactions
Conclusions - Profits and Disadvantages of Pseudocapacitive Effects
LI-ION-BASED HYBRID SUPERCAPACITORS IN ORGANIC MEDIUM
Introduction
Voltage Limitation of Conventional EDLCs
Hybrid Capacitor Systems
Material Design for NHC
Conclusion
ASYMMETRIC AND HYBRID DEVICES IN AQUEOUS ELECTROLYTES
Introduction
Aqueous Hybrid (Asymmetric) Devices
Aqueous Asymmetric Electrochemical Capacitors
Tantalum Oxide-Ruthenium Oxide Hybrid Capacitors
Perspectives
EDLCS BASED ON SOLVENT-FREE IONIC LIQUIDS
Introduction
Carbon Electrode/Ionic Liquid Interface
Ionic Liquids
Carbon Electrodes
Supercapacitors
Concluding Remarks
MANUFACTURING OF INDUSTRIAL SUPERCAPACITORS
Introduction
Cell Components
Cell Design
Module Design
Conclusions and Perspectives
SUPERCAPACITOR MODULE SIZING AND HEAT MANAGEMENT UNDER ELECTRIC, THERMAL, AND AGING CONSTRAINTS
Introduction
Electrical Characterization
Thermal Modeling
Supercapacitor Lifetime
Supercapacitor Module Sizing Methods
Applications
TESTING OF ELECTROCHEMICAL CAPACITORS
Introduction
Summaries of DC Test Procedures
Applicatin of the Test Procedures to Carbon/Carbon Devices
Testing of Hybrid, Pseudocapacitive Devices
Relationships between AC Impedance and DC Testing
Uncertainties in Ultracapacitor Data Interpretation
Summary
RELIABILITY OF ELECTROCHEMICAL CAPACITORS
Introduction
Reliability Basics
Cell Reliability
System Reliability
Assessment of Cell Reliability
Reliability of Practical Systems
Increasing System Reliability
System Design Example
MARKET AND APPLICATIONS OF ELECTROCHEMICAL CAPACITORS
Introduction: Principles and History
Commerical Designs: DC Power Applications
Energy Conservation and Energy Harvesting Applications
Technology Combination Applications
Electricity Grid Applications
Conclusions
Erscheint lt. Verlag | 2.4.2013 |
---|---|
Reihe/Serie | Materials for Sustainable Energy and Development | Materials for Sustainable Energy and Development |
Mitarbeit |
Herausgeber (Serie): G. Q. Max Lu |
Sprache | englisch |
Themenwelt | Naturwissenschaften ► Chemie |
Technik ► Maschinenbau | |
Schlagworte | Batterien u. Brennstoffzellen • Batteries & Fuel Cells • Chemie • Chemistry • Electronic materials • Elektrochemie • Elektronische Materialien • Energie • Energietechnik • Energy • Hydrogen, Batteries & Fuel Cells • Kondensator • Materials Science • Materialwissenschaften • Power Technology & Power Engineering • Wasserstoff, Batterien u. Brennstoffzellen |
ISBN-10 | 3-527-64668-X / 352764668X |
ISBN-13 | 978-3-527-64668-5 / 9783527646685 |
Haben Sie eine Frage zum Produkt? |
Größe: 28,2 MB
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