Nanostructured Materials Engineering and Characterization for Battery Applications
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Nanostructured Materials Engineering and Characterization for Battery Applications
Maria, Hanna J.; Thomas, Sabu; Kalarikkal, Nandakumar; Stephan, Arul Manuel; Fall, Modou; Gueye, Amadou Belal
Elsevier - Health Sciences Division
06/2024
714
Mole
Inglês
9780323913041
15 a 20 dias
Descrição não disponível.
SECTION 1: Introduction to energy storage systems and fundamentals
1. Electrochemical energy storage technologies: state of the art, case studies, challenges, and opportunities
2. Battery modeling
SECTION 2: Engineering of battery materials
3. Nanostructured cathode materials
4. Nanostructured electrolyte materials
5. Nanostructured functionalized separators
6. Nanostructured anode materials
7. Computational materials design of nanostructured materials for battery applications
SECTION 3: Battery characterization
8. Characterization of battery materials by electrochemical method
9. Characterization of battery materials by microscopy techniques
10. Characterization of battery materials by neutron scattering methods
11. Characterization of battery materials by X-ray methods
12. Characterization of battery materials by mechanical
13. Characterization of battery materials by surface spectroscopy methods
SECTION 4: Applications, practical considerations, and perspectives on batteries
14. Battery manufacturing-from laboratory to industry-challenges
15. Life cycle assessment of batteries
16. Battery applications
17. A simplified model to improve the performance of repurposed electric vehicle batteries
18. Fully green batteries
19. Integrated technologies and novel nanostructured materials for energy storage
20. Future of lignocellulosic biomassderived activated carbon for battery application
21. Artificial intelligence and machine learning in battery materials and their applications
1. Electrochemical energy storage technologies: state of the art, case studies, challenges, and opportunities
2. Battery modeling
SECTION 2: Engineering of battery materials
3. Nanostructured cathode materials
4. Nanostructured electrolyte materials
5. Nanostructured functionalized separators
6. Nanostructured anode materials
7. Computational materials design of nanostructured materials for battery applications
SECTION 3: Battery characterization
8. Characterization of battery materials by electrochemical method
9. Characterization of battery materials by microscopy techniques
10. Characterization of battery materials by neutron scattering methods
11. Characterization of battery materials by X-ray methods
12. Characterization of battery materials by mechanical
13. Characterization of battery materials by surface spectroscopy methods
SECTION 4: Applications, practical considerations, and perspectives on batteries
14. Battery manufacturing-from laboratory to industry-challenges
15. Life cycle assessment of batteries
16. Battery applications
17. A simplified model to improve the performance of repurposed electric vehicle batteries
18. Fully green batteries
19. Integrated technologies and novel nanostructured materials for energy storage
20. Future of lignocellulosic biomassderived activated carbon for battery application
21. Artificial intelligence and machine learning in battery materials and their applications
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Battery; Cathode; Electrolyte; Anode; Energy Storage; Composite; Nanocomposite; Electrochemical performance; Carbon Nanotubes; Graphene; Nanohybrid Composites
SECTION 1: Introduction to energy storage systems and fundamentals
1. Electrochemical energy storage technologies: state of the art, case studies, challenges, and opportunities
2. Battery modeling
SECTION 2: Engineering of battery materials
3. Nanostructured cathode materials
4. Nanostructured electrolyte materials
5. Nanostructured functionalized separators
6. Nanostructured anode materials
7. Computational materials design of nanostructured materials for battery applications
SECTION 3: Battery characterization
8. Characterization of battery materials by electrochemical method
9. Characterization of battery materials by microscopy techniques
10. Characterization of battery materials by neutron scattering methods
11. Characterization of battery materials by X-ray methods
12. Characterization of battery materials by mechanical
13. Characterization of battery materials by surface spectroscopy methods
SECTION 4: Applications, practical considerations, and perspectives on batteries
14. Battery manufacturing-from laboratory to industry-challenges
15. Life cycle assessment of batteries
16. Battery applications
17. A simplified model to improve the performance of repurposed electric vehicle batteries
18. Fully green batteries
19. Integrated technologies and novel nanostructured materials for energy storage
20. Future of lignocellulosic biomassderived activated carbon for battery application
21. Artificial intelligence and machine learning in battery materials and their applications
1. Electrochemical energy storage technologies: state of the art, case studies, challenges, and opportunities
2. Battery modeling
SECTION 2: Engineering of battery materials
3. Nanostructured cathode materials
4. Nanostructured electrolyte materials
5. Nanostructured functionalized separators
6. Nanostructured anode materials
7. Computational materials design of nanostructured materials for battery applications
SECTION 3: Battery characterization
8. Characterization of battery materials by electrochemical method
9. Characterization of battery materials by microscopy techniques
10. Characterization of battery materials by neutron scattering methods
11. Characterization of battery materials by X-ray methods
12. Characterization of battery materials by mechanical
13. Characterization of battery materials by surface spectroscopy methods
SECTION 4: Applications, practical considerations, and perspectives on batteries
14. Battery manufacturing-from laboratory to industry-challenges
15. Life cycle assessment of batteries
16. Battery applications
17. A simplified model to improve the performance of repurposed electric vehicle batteries
18. Fully green batteries
19. Integrated technologies and novel nanostructured materials for energy storage
20. Future of lignocellulosic biomassderived activated carbon for battery application
21. Artificial intelligence and machine learning in battery materials and their applications
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
