Advanced Technologies for Rechargeable Batteries
Metal-Ion, Hybrid, and Metal-Air Batteries
Herausgeber: Das, Akhila; Raghavan, Prasanth; Fatima M. J, Jabeen
Advanced Technologies for Rechargeable Batteries
Metal-Ion, Hybrid, and Metal-Air Batteries
Herausgeber: Das, Akhila; Raghavan, Prasanth; Fatima M. J, Jabeen
- Gebundenes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
This volume covers recent advanced battery systems such as Metal-Ion, Hybrid and Metal-Air Batteries under three sections. It includes introduction fluoride, potassium, zinc, chloride, aluminium, and iron ion batteries. Special or hybrid batteries included with calcium, nuclear, thermal, and lithium-magnesium hybrid batteries are explained.
Andere Kunden interessierten sich auch für
- Organic Light-Emitting Materials and Devices276,99 €
- Conservation Science50,99 €
- Mirza I BichurinMagnetoelectric Composites158,99 €
- Smart Materials for Advanced Environmental Applications224,99 €
- Dick SandbergWood Modification Technologies242,99 €
- The Science and Technology of Industrial Water Treatment263,99 €
- Oleg FigovskyGreen Nanotechnology158,99 €
-
-
-
This volume covers recent advanced battery systems such as Metal-Ion, Hybrid and Metal-Air Batteries under three sections. It includes introduction fluoride, potassium, zinc, chloride, aluminium, and iron ion batteries. Special or hybrid batteries included with calcium, nuclear, thermal, and lithium-magnesium hybrid batteries are explained.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 432
- Erscheinungstermin: 27. August 2024
- Englisch
- Abmessung: 254mm x 178mm
- ISBN-13: 9781032315362
- ISBN-10: 1032315369
- Artikelnr.: 70148280
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 432
- Erscheinungstermin: 27. August 2024
- Englisch
- Abmessung: 254mm x 178mm
- ISBN-13: 9781032315362
- ISBN-10: 1032315369
- Artikelnr.: 70148280
Prasanth Raghavan is a Professor, at Materials Science and NanoEngineering Lab (MSNE-Lab), Department of Polymer Science and Rubber Technology, Cochin University of Science and Technology (CUSAT), Visiting Professor at Biorefining and Advanced Materials Research Center, SRUC (Scotland's Rural College), Edinburgh EH9 3JG, UK and at Department of Materials Engineering and Convergence Technology, Gyeongsang National University, Republic of Korea. Akhila Das is a graduate student pursuing Ph.D. at Materials Science and NanoEngineering Lab (MSNE-Lab), Department of Polymer Science and Rubber Technology (PSRT), Cochin University of Science and Technology (CUSAT), India. Jabeen Fatima M. J has recently joined Carborundum Universal Limited as Manager of Technology. She was previously engaged as a research scientist at Materials Science and NanoEngineering Lab (MSNE-Lab), Department of Polymer Science and Rubber Technology (PSRT), Cochin University of Science and Technology (CUSAT), India. Before joining MSNE Lab, she was working as a tentative Assistant Professor at Department of NanoScience and Technology, University of Calicut, India.
Chapter 1. Chloride Ion Batteries. Chapter 2. Potassium-ion batteries:
Recent Trends and Challenges. Chapter 3. Zinc-ion Batteries: Materials to
Mechanism of Energy Storage. Chapter 4. Recent Advances and Trends in
Al-ion Batteries. Chapter 5. Characterization of Electrochemical Behaviour
of All Iron-Ion Batteries for Grid Scale Applications. Chapter 6. Calcium
Ion Batteries. Chapter 7. Nuclear Batteries: An Overview. Chapter 8.
Magnesium - Lithium Hybrid Batteries. Chapter 9. Metal-air Batteries:
Future of Hybrid or Electric Vehicles (HEV or EV). Chapter 10. Lithium-Air
Batteries: Batteries for Emerging Electric or Hybrid Electric Vehicles (EV
or HEV), a focus into general aspects and electrolyte engineering. Chapter
11. Lithium-air batteries: State of the art developments in anode, cathode
and electrocatalyst. Chapter 12. Emerging Magnesium-Air Battery Technology:
Electrolyte and Anodic Materials. Chapter 13. Emerging Magnesium-Air
Battery Technology: Cathodic Materials. Chapter 14. Advancements in
Sodium-Air Batteries: General Electrochemical Mechanisms and Advances.
Chapter 15. Emerging Sodium-Air Batteries: State of the art in Anode
stabilization. Chapter 16. Advancements in Air cathodes in Sodium-Air
Batteries: Cathode Materials. Chapter 17. State of the art in electrolyte
engineering and separator modifications for Sodium-Air Batteries. Chapter
18. Rechargeable Zn-air Battery: Current challenges and opportunities.
Chapter 19. Emerging Cost-efficient Aluminium-Air Battery Technology-Anode
Materials. Chapter 20. Emerging Cost-efficient Aluminium-Air Battery
Technology: Cathode Materials. Chapter 21. Emerging Cost-efficient
Aluminium-Air Battery Technology: Electrolyte Materials
Recent Trends and Challenges. Chapter 3. Zinc-ion Batteries: Materials to
Mechanism of Energy Storage. Chapter 4. Recent Advances and Trends in
Al-ion Batteries. Chapter 5. Characterization of Electrochemical Behaviour
of All Iron-Ion Batteries for Grid Scale Applications. Chapter 6. Calcium
Ion Batteries. Chapter 7. Nuclear Batteries: An Overview. Chapter 8.
Magnesium - Lithium Hybrid Batteries. Chapter 9. Metal-air Batteries:
Future of Hybrid or Electric Vehicles (HEV or EV). Chapter 10. Lithium-Air
Batteries: Batteries for Emerging Electric or Hybrid Electric Vehicles (EV
or HEV), a focus into general aspects and electrolyte engineering. Chapter
11. Lithium-air batteries: State of the art developments in anode, cathode
and electrocatalyst. Chapter 12. Emerging Magnesium-Air Battery Technology:
Electrolyte and Anodic Materials. Chapter 13. Emerging Magnesium-Air
Battery Technology: Cathodic Materials. Chapter 14. Advancements in
Sodium-Air Batteries: General Electrochemical Mechanisms and Advances.
Chapter 15. Emerging Sodium-Air Batteries: State of the art in Anode
stabilization. Chapter 16. Advancements in Air cathodes in Sodium-Air
Batteries: Cathode Materials. Chapter 17. State of the art in electrolyte
engineering and separator modifications for Sodium-Air Batteries. Chapter
18. Rechargeable Zn-air Battery: Current challenges and opportunities.
Chapter 19. Emerging Cost-efficient Aluminium-Air Battery Technology-Anode
Materials. Chapter 20. Emerging Cost-efficient Aluminium-Air Battery
Technology: Cathode Materials. Chapter 21. Emerging Cost-efficient
Aluminium-Air Battery Technology: Electrolyte Materials
Chapter 1. Chloride Ion Batteries. Chapter 2. Potassium-ion batteries:
Recent Trends and Challenges. Chapter 3. Zinc-ion Batteries: Materials to
Mechanism of Energy Storage. Chapter 4. Recent Advances and Trends in
Al-ion Batteries. Chapter 5. Characterization of Electrochemical Behaviour
of All Iron-Ion Batteries for Grid Scale Applications. Chapter 6. Calcium
Ion Batteries. Chapter 7. Nuclear Batteries: An Overview. Chapter 8.
Magnesium - Lithium Hybrid Batteries. Chapter 9. Metal-air Batteries:
Future of Hybrid or Electric Vehicles (HEV or EV). Chapter 10. Lithium-Air
Batteries: Batteries for Emerging Electric or Hybrid Electric Vehicles (EV
or HEV), a focus into general aspects and electrolyte engineering. Chapter
11. Lithium-air batteries: State of the art developments in anode, cathode
and electrocatalyst. Chapter 12. Emerging Magnesium-Air Battery Technology:
Electrolyte and Anodic Materials. Chapter 13. Emerging Magnesium-Air
Battery Technology: Cathodic Materials. Chapter 14. Advancements in
Sodium-Air Batteries: General Electrochemical Mechanisms and Advances.
Chapter 15. Emerging Sodium-Air Batteries: State of the art in Anode
stabilization. Chapter 16. Advancements in Air cathodes in Sodium-Air
Batteries: Cathode Materials. Chapter 17. State of the art in electrolyte
engineering and separator modifications for Sodium-Air Batteries. Chapter
18. Rechargeable Zn-air Battery: Current challenges and opportunities.
Chapter 19. Emerging Cost-efficient Aluminium-Air Battery Technology-Anode
Materials. Chapter 20. Emerging Cost-efficient Aluminium-Air Battery
Technology: Cathode Materials. Chapter 21. Emerging Cost-efficient
Aluminium-Air Battery Technology: Electrolyte Materials
Recent Trends and Challenges. Chapter 3. Zinc-ion Batteries: Materials to
Mechanism of Energy Storage. Chapter 4. Recent Advances and Trends in
Al-ion Batteries. Chapter 5. Characterization of Electrochemical Behaviour
of All Iron-Ion Batteries for Grid Scale Applications. Chapter 6. Calcium
Ion Batteries. Chapter 7. Nuclear Batteries: An Overview. Chapter 8.
Magnesium - Lithium Hybrid Batteries. Chapter 9. Metal-air Batteries:
Future of Hybrid or Electric Vehicles (HEV or EV). Chapter 10. Lithium-Air
Batteries: Batteries for Emerging Electric or Hybrid Electric Vehicles (EV
or HEV), a focus into general aspects and electrolyte engineering. Chapter
11. Lithium-air batteries: State of the art developments in anode, cathode
and electrocatalyst. Chapter 12. Emerging Magnesium-Air Battery Technology:
Electrolyte and Anodic Materials. Chapter 13. Emerging Magnesium-Air
Battery Technology: Cathodic Materials. Chapter 14. Advancements in
Sodium-Air Batteries: General Electrochemical Mechanisms and Advances.
Chapter 15. Emerging Sodium-Air Batteries: State of the art in Anode
stabilization. Chapter 16. Advancements in Air cathodes in Sodium-Air
Batteries: Cathode Materials. Chapter 17. State of the art in electrolyte
engineering and separator modifications for Sodium-Air Batteries. Chapter
18. Rechargeable Zn-air Battery: Current challenges and opportunities.
Chapter 19. Emerging Cost-efficient Aluminium-Air Battery Technology-Anode
Materials. Chapter 20. Emerging Cost-efficient Aluminium-Air Battery
Technology: Cathode Materials. Chapter 21. Emerging Cost-efficient
Aluminium-Air Battery Technology: Electrolyte Materials