Table of Contents

PART 1 Fundamentals of electrochemical energy storage technologies1. Fundamental electrochemical energy storage mechanisms 1 Overview 2 Electron transfer and mass transport 3 Electrochemistry of electrolyte 4 Electrochemistry of electrode5 Interface 2. Configurations of electrochemical energy storage devices 1 Overview 2 Device configuration design principles 3 Redox flow batteries (RFBs) 4 The function of separators 3. Material characterization and electrochemical testtechniques 1 Introduction 2 Basic characterization and electrochemical test techniques 3 Advanced characterization and electrochemical test techniques 4 Conclusion 4. Selected quantum chemical studies on the surfaces and interfaces of carbon materials for applications in lithium-ionbatteries and beyond 1 Introduction 2 A brief introduction to density functional theory (DFT)3 The interaction of Li, Na, and K with carbon materials4 Concluding remarks and perspectives PART 2 Non-lithium-ion rocking chair batteries: Candidate materials and device design considerations5. Sodium-ion batteries 1 Introduction 2 Anode materials 3 Electrolytes for NIBs 4 Separators and current collectors for NIBs 5 Cathode materials 6 Conclusions 6. Potassium-ion batteries: Mechanism, design,and perspectives 1 Introduction 2 Anode materials 3 Cathode materials 4 Electrolytes 5 Binders 6 Conclusion and perspectives 7. Zinc-ion batteries: Recent trends in zinc-ion batteries1 Introduction 2 Materials used in zinc-ion batteries 8. Rechargeable magnesium-ion batteries: From mechanismto emerging materials 1 Introduction 2 Working mechanism and main challenges 3 Cathode 4 Anode 5 Electrolyte 6 Summary and outlooks 9. Aluminum-ion batteries 1 Introduction of rechargeable aluminum-ion batteries 2 Cathode materials 3 Electrolytes 4 Al metal anode and related technologies 5 Other materials 6 Conclusion and perspectives 10. Calcium-ion batteries 1 A general introduction to this technology 2 Challenges in developing modern CIBs 3 Anode materials 4 Cathode 5 Perspectives 11. Materials electrochemistry for dual-ion batteries 1 Understanding of dual-ion batteries 2 Positive electrode design 3 Negative electrode design 4 Electrolyte design 5 Conclusion and perspectives PART 3 Emerging metal-air batteries and fuel cells: Candidate materials and device design considerations12. Lithium-air batteries 1 Introduction 2 Anode materials 3 Air-cathode materials 4 Electrolytes 5 Other components 6 Conclusion and future perspectives 13.