This book covers every aspect of the Zn-air battery, ranging from its historical development to the design of its components and devices and to the new trends of research.
This book covers every aspect of the Zn-air battery, ranging from its historical development to the design of its components and devices and to the new trends of research.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Zongping Shao is currently a John Curtin Distinguished Professor at Curtin University, Australia. He obtained his Ph.D. degree from Dalian Institute of Chemical Physics, China, in 2000. Xiaomin Xu is currently a Research Associate at Curtin University, Australia. He received his Ph.D. degree in Chemical Engineering from Curtin University in 2021.
Inhaltsangabe
1 INTRODUCTION TO ZINC-AIR BATTERIES 1.1 Introduction 1.2 History of Zn-air battery 1.3 Structure and principle of Zn-air battery 1.4 Evaluation of Zn-air battery 1.5 Main issues of Zn-air battery
2 DESIGN OF OXYGEN REDUCTION CATALYSTS IN PRIMARY ZINC-AIR BATTERIES 2.1 Overview of oxygen reduction catalysts 2.2 Precious metal catalysts 2.3 Single-atom catalysts 2.4 Carbon-based catalysts 2.5 Transition metal oxide catalysts 2.6 Miscellaneous catalysts
3 DESIGN OF BIFUNCTIONAL OXYGEN CATALYSTS IN RECHARGEABLE ZINC-AIR BATTERIES 3.1 Oxygen redox reactions and catalyst candidates 3.2 Carbon 3.3 Metal oxides 3.4 Heterostructured catalysts 3.5 Carbon-based composites 3.6 Other emerging catalysts 3.7 Binder-free catalysts
4 DESIGN OF THREE-DIMENSIONAL AIR CATHODE IN ZINC-AIR BATTERIES 4.1 Overview of three-dimensional air cathode 4.2 Load of carbon-based catalysts 4.3 Load of transition metal compounds 4.4 Design of three-phase interface 4.5 Conclusions
5 DESIGN OF ZN ANODE FOR ZINC-AIR BATTERIES 5.1 Introduction 5.2 Methods to optimize Zn anode for Zn-air batteries 5.3 Conclusion and perspectives
6 DESIGN of ELECTROLYTE FOR ZINC-AIR BATTERIES 6.1 Liquid electrolytes 6.2 Gel polymer electrolyte
7 NEW DESIGN of ZINC-AIR BATTERIES 7.1 Flexible Zn-air battery 7.2 Hybrid Zn-air battery 7.3 Zn-air flow battery
8 INDUSTRIAL DEVELOPMENTS OF ZN-AIR BATTERIES 8.1 History of Zn-air batteries 8.2 Primary Zn-air batteries 8.3 Rechargeable Zn-air batteries
1 INTRODUCTION TO ZINC-AIR BATTERIES 1.1 Introduction 1.2 History of Zn-air battery 1.3 Structure and principle of Zn-air battery 1.4 Evaluation of Zn-air battery 1.5 Main issues of Zn-air battery
2 DESIGN OF OXYGEN REDUCTION CATALYSTS IN PRIMARY ZINC-AIR BATTERIES 2.1 Overview of oxygen reduction catalysts 2.2 Precious metal catalysts 2.3 Single-atom catalysts 2.4 Carbon-based catalysts 2.5 Transition metal oxide catalysts 2.6 Miscellaneous catalysts
3 DESIGN OF BIFUNCTIONAL OXYGEN CATALYSTS IN RECHARGEABLE ZINC-AIR BATTERIES 3.1 Oxygen redox reactions and catalyst candidates 3.2 Carbon 3.3 Metal oxides 3.4 Heterostructured catalysts 3.5 Carbon-based composites 3.6 Other emerging catalysts 3.7 Binder-free catalysts
4 DESIGN OF THREE-DIMENSIONAL AIR CATHODE IN ZINC-AIR BATTERIES 4.1 Overview of three-dimensional air cathode 4.2 Load of carbon-based catalysts 4.3 Load of transition metal compounds 4.4 Design of three-phase interface 4.5 Conclusions
5 DESIGN OF ZN ANODE FOR ZINC-AIR BATTERIES 5.1 Introduction 5.2 Methods to optimize Zn anode for Zn-air batteries 5.3 Conclusion and perspectives
6 DESIGN of ELECTROLYTE FOR ZINC-AIR BATTERIES 6.1 Liquid electrolytes 6.2 Gel polymer electrolyte
7 NEW DESIGN of ZINC-AIR BATTERIES 7.1 Flexible Zn-air battery 7.2 Hybrid Zn-air battery 7.3 Zn-air flow battery
8 INDUSTRIAL DEVELOPMENTS OF ZN-AIR BATTERIES 8.1 History of Zn-air batteries 8.2 Primary Zn-air batteries 8.3 Rechargeable Zn-air batteries
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