Overview

Electrochemical Energy Storage Technologies Beyond Li-ion Batteries: Fundamentals, Materials, Devices focuses on an overview of the current research directions to enable the commercial translation of electrochemical energy storage technologies. The principles of energy storage mechanisms and device design considerations are introduced, along with advances in candidate materials and their path to commercialization and industrialization. Electrochemical energy storage technologies reviewed include rocking chair batteries, metal-air batteries, redox flow batteries, fuel cells, and supercapacitors. This book is suitable for materials scientists and chemists in academia and industry. It may also be of interest to physicists and energy scientists and practitioners.

Full Product Details

Author:   Guanjie He (Queen Mary University of London, UK)
Publisher:   Elsevier - Health Sciences Division
Imprint:   Elsevier - Health Sciences Division
Weight:   0.450kg
ISBN:  

9780443155147

ISBN 10:   0443155143
Pages:   602
Publication Date:   03 December 2024
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

Part 1 Fundamentals of Electrochemical Energy Storage Technologies 1. Applications of Electrochemical Energy Storage Devices 2. Fundamental Electrochemical Energy Mechanisms 3. Configurations of Electrochemical Energy Storage Devices 4. Material Characterization and Electrochemical Test Techniques 5. Application of Computational Methodologies Part 2 Non-lithium-ion Rocking Chair Batteries: Candidate Materials and Device Design Considerations 6. Sodium-ion Batteries 7. Potassium-ion Batteries 8. Zinc-ion Batteries 9. Magnesium-ion Batteries 10. Aluminum-ion Batteries 11. Calcium-ion Batteries Part 3 Metal-air Batteries: Candidate Materials and Device Design Considerations 12. Lithium-air Batteries 13. Zinc-air Batteries 14. Other Metal-air Batteries Part 4 Redox Flow Batteries: Candidate Materials and Device Design Considerations 15. All-vanadium Redox Flow Batteries 16. Zn-based Hybrid Flow Batteries 17. Organic Redox Flow Batteries 18. Other Redox Flow Batteries Part 5 Supercapacitors: Candidate Materials and Device Design Considerations 19. Electrochemical Double Layer Capacitors (EDLCs) 20. Pseudocapacitors 21. Hybrid Capacitors Part 6 Fuel Cells: Candidate Materials and Device Design Considerations 22. Polymer Electrolyte Membrane Fuel Cells (PEMFCs) 23. Solid-oxide Fuel Cells (SOFCs) 24. Molten-carbonate Fuel Cells (MCFCs) 25. Phosphoric Acid Fuel Cells (PAFCs) Part 7 Other Electrochemical Energy Storage Technologies: Candidate Materials and Device Design Considerations 26. Lithium-metal Batteries 27. Halogen-based Batteries 28. Pb-acid Batteries 29. Nickel–metal Hydride Batteries 30. Zinc-Nickel Batteries Part 8 Future Outlooks and Challenges 31. Recycling Approaches Used Electrochemical Energy Storage Devices 32. Challenges and Future Prospective of Non-lithium Electrochemical Energy Storage Technologies

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Author Information

Dr. Guanjie He is a Senior Lecturer in Materials Science, Queen Mary University of London. He was an Associate Professor in Materials Chemistry, University of Lincoln and an Honorary Lecturer in the Department of Chemistry and Department of Chemical Engineering, University College London (UCL). During 2018-2019, Dr. He worked in Electrochemical Innovation Lab in the Department of Chemical Engineering, UCL as a Research Fellow. Dr. He's research focused on materials for electrochemical energy storage and conversion applications, especially electrode materials in aqueous electrolyte systems. Dr. He has published >100 papers in peer-reviewed journals and 5 invited book chapters, with total citation of over 3300, and an h-index of 32 (Data from google scholar). Dr. He serves as a Guest Editor and an editorial broad member/Young Leaders Committee of several journals, such as Green Energy & Environment, Energy & Environmental Materials. Dr. He received his PhD degree in Chemistry at, UCL. Before this, he received Bsc. in College of Materials Science & Engineering, Donghua University with the honour of College Graduate Excellence Award of Shanghai.

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