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Table of Contents
Intro; Preface; Acknowledgements; Contents; 1 Introduction to Batteries; 1.1 The Origin of Batteries; 1.2 Battery Definition and Working Principle; 1.3 Li-ion Batteries; 1.4 Beyond Li-ion Batteries; References; 2 Prussian Blue and Its Analogues. Structure, Characterization and Applications; 2.1 The Origins of Prussian Blue; 2.2 The Formula and Structure of Prussian Blue; 2.2.1 'Insoluble' and 'Soluble' Prussian Blue; 2.2.2 Turnbull's Blue; 2.3 The Reduced and Oxidized Forms of Prussian Blue; 2.4 Electronic, Vibrational and Nuclear Properties of Prussian Blue and Related Phases
2.5 Prussian Blue Analogues. Other Transition Metal Hexacyanides2.6 Applications of Prussian Blue and Its Analogues; References; 3 Electrochemical Performance of Prussian Blue and Analogues in Aqueous Rechargeable Batteries; 3.1 Initial Considerations: Electrochemistry of Prussian Blue Thin Films; 3.2 Electrochemistry of Bulk Electrodes: Cathode Materials for Rechargeable Batteries; 3.2.1 Materials Choice for Maximizing the Energy Density; 3.2.2 Fast Kinetics and Long Cycle Life in Prussian Blue Analogue; 3.2.3 Multivalent Ion Insertion; 3.3 Full Cells; 3.3.1 Full Cells with Thin Films
3.3.2 Full Cells with Bulky Electrodes3.4 Viable Commercial Cells Based on Aqueous Prussian Blue and Analogues; References; 4 Electrochemical Performance of Prussian Blue and Analogues in Non-aqueous High Energy Density Batteries; 4.1 Prussian Blue and Analogues in Non-aqueous Li-ion Batteries; 4.1.1 Cathode Studies; 4.1.2 Anode Studies; 4.2 Prussian Blue and Analogues as Cathodes in Non-aqueous Na-ion Batteries; 4.2.1 Prussian Blue Phases; 4.2.2 Berlin Green Phases; 4.2.3 Prussian White Phases; 4.3 Prussian Blue and Analogues in Other Non-aqueous Batteries
4.3.1 Prussian Blue and Other Phases as Cathodes for K-ion Batteries4.3.2 Prussian Blue as Cathode for Mg-ion Batteries; 4.3.3 Prussian Blue and Analogues as Cathodes for Ca-ion Batteries; 4.3.4 Prussian Blue as Cathode for Al-ion Batteries; 4.4 Concluding remarks; References; 5 Conclusions and Perspectives; 5.1 Introduction; 5.2 Overview on A-ion Batteries; 5.3 Prussian Blue Materials; 5.4 Key Aspects of the Application of Prussian Blue Materials to Batteries; 5.5 Future Perspectives; References
2.5 Prussian Blue Analogues. Other Transition Metal Hexacyanides2.6 Applications of Prussian Blue and Its Analogues; References; 3 Electrochemical Performance of Prussian Blue and Analogues in Aqueous Rechargeable Batteries; 3.1 Initial Considerations: Electrochemistry of Prussian Blue Thin Films; 3.2 Electrochemistry of Bulk Electrodes: Cathode Materials for Rechargeable Batteries; 3.2.1 Materials Choice for Maximizing the Energy Density; 3.2.2 Fast Kinetics and Long Cycle Life in Prussian Blue Analogue; 3.2.3 Multivalent Ion Insertion; 3.3 Full Cells; 3.3.1 Full Cells with Thin Films
3.3.2 Full Cells with Bulky Electrodes3.4 Viable Commercial Cells Based on Aqueous Prussian Blue and Analogues; References; 4 Electrochemical Performance of Prussian Blue and Analogues in Non-aqueous High Energy Density Batteries; 4.1 Prussian Blue and Analogues in Non-aqueous Li-ion Batteries; 4.1.1 Cathode Studies; 4.1.2 Anode Studies; 4.2 Prussian Blue and Analogues as Cathodes in Non-aqueous Na-ion Batteries; 4.2.1 Prussian Blue Phases; 4.2.2 Berlin Green Phases; 4.2.3 Prussian White Phases; 4.3 Prussian Blue and Analogues in Other Non-aqueous Batteries
4.3.1 Prussian Blue and Other Phases as Cathodes for K-ion Batteries4.3.2 Prussian Blue as Cathode for Mg-ion Batteries; 4.3.3 Prussian Blue and Analogues as Cathodes for Ca-ion Batteries; 4.3.4 Prussian Blue as Cathode for Al-ion Batteries; 4.4 Concluding remarks; References; 5 Conclusions and Perspectives; 5.1 Introduction; 5.2 Overview on A-ion Batteries; 5.3 Prussian Blue Materials; 5.4 Key Aspects of the Application of Prussian Blue Materials to Batteries; 5.5 Future Perspectives; References