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summarizes the fundamental energy storage mechanisms, critical achievements, and critical challenges from the view of practical application.
Sommario
INTRODUCTION
FUNDAMENTALS OF ELECTROCHEMICAL ENERGY STORAGE TECHNOLOGIES
Typical Battery Pattern and Corresponding Functions
Operating Mechanism of the Devices
Critical Parameters and Design Proposal
Common Investigation Technologies
Common Design Strategies for High-Performance Electrode Materials
LITHIUM-ION BATTERIES
Brief Introduction
Cathode Materials
Anode Materials
SODIUM-ION BATTERIES
Introduction
Energy Storage Mechanism
Cathode Materials
Anode Materials
Electrolyte
Sodium-Ion Battery in Extreme Temperature
Other Na Based Technologies
Summary and Outlook
ALL-SOLID-STATE BATTERIES
Introduction
Ion Transport Mechanism
Key Performance Parameters
Classification of Solid Electrolytes
Practical Problems and Critical Challenges
Practical Advances in Electric Vehicles and other Areas
LITHIUM-SULFUR BATTERY
Fundamental Understanding of Li-S Battery
Sulfur Cathode
Electrolyte
Anode
Li-S Pouch Cells Analysis
AQUEOUS MULTIVALENT METAL ION BATTERIES: FUNDAMENTAL MECHANISM AND APPLICATION
Introduction
Classification Based on Energy Storage Mechanism
Highly Stable and Energetic Cathodes
Strategies for Dendrite-Free Metal Anodes
Strategies for Design Electrolyte
Design Strategies for Extreme Temperatures
Practical Progress in Grid-Scale Energy Storage and Wearable Device
LI-O2 AND LI-CO2 BATTERIES
Introduction
The Mechanism for Li-O2 and Li-CO2 Batteries
Cathode Materials Design Strategy
Electrolyte and Electrolyte Stability
Stable Anode/Electrolyte Interface Construction
Application Potential Analysis
SUPERCAPACITORS
Brief Introduction
Energy Storage Mechanism
Electrode Materials
Electrolyte
Conclusion
BATTERY-SUPERCAPACITOR HYBRID DEVICES
Introduction
Classification Based on Energy Storage Mechanism
Key Scientific Problems
Electrode Materials
Microgrids Energy Storage
Summary and Perspectives
FUEL CELLS
Overview
Thermodynamics and the Kinetics
Proton Exchange Membrane Fuel Cell
Alkaline Fuel Cells
Other Fuel Cells
Fuel Cell System
Info autore
Minghua Chen is the associate dean of School of Electrical and Electronic Engineering at Harbin University of Science and Technology in China and also the deputy director of Key Laboratory of Engineering Dielectric and Applications (Ministry of Education). He received Ph.D from Harbin University of Science and Technology, followed by exchange student and visiting scientist at Nanyang Technological University (NTU) from 2013 to 2016. Professor Chen has authored over 100 scientific publications. His research group is focusing on fundamental mechanism study, advanced materials design, and their applications for energy storage and conversion devices.
