Energy Storage Materials: Innovations and Emerging Trends
Editat de Kalathiparambil Rajendra Pai Sunajadevi, Dephan Pinheiro, Habil. Martin Mkandawireen Limba Engleză Paperback – noi 2026
Chapters provide in-depth coverage of core concepts, including design metrics, battery principles, and the optimization of electrolytes and separators. The book explores the synthesis, properties, and applications of cutting-edge materials such as carbon quantum dots, graphene derivatives, metal oxides and sulfides, conducting polymers, MXenes, MBenes, organometallic frameworks, MOFs, and their composites. It further examines sustainable and adaptive solutions including biomass-derived electrodes, hydrogel-based materials, self-healing systems, thin-film devices, and computational modeling, culminating in a forward-looking analysis of market trends and future directions.
- Integrates advances from materials science, nanotechnology, and electrochemistry for a unified perspective
- Focuses on next-generation materials, including 2D materials, MXenes, metal-organic frameworks, and hybrid nanocomposites
- Presents comparative analyses of material systems tailored for batteries and supercapacitors
- Guides future research through critical analysis of emerging trends and bottlenecks
- Addresses sustainability and scalable synthesis for real-world energy storage applications
Preț: 1135.95 lei
Preț vechi: 1475.27 lei
-23% Precomandă
Puncte Express: 1704
Carte nepublicată încă
Livrare prin curier în România Precomanda se expediază când titlul devine disponibil.
Transport gratuit pentru acest produs Plată online sau ramburs, în funcție de opțiunile comenzii.
Retur gratuit în 14 zile Comandă securizată și suport în română.
Doresc să fiu notificat când acest titlu va fi disponibil:
Se trimite...
Specificații
ISBN-13: 9780443458521
ISBN-10: 0443458529
Pagini: 500
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 0443458529
Pagini: 500
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Cuprins
Part I: Fundamentals of Energy Storage
1. Energy Storage Fundamentals: Design and Performance Metrics
2. Essentials of Battery Technology: Principles and Performance Indicators
3. Electrolytes and Separators in Energy Storage: Optimizing Ion Transport and Device Stability
Part II: Advanced Functional Materials for Energy Storage Systems
4. Carbon Quantum Dots and Composite Materials: Versatile Platforms for Energy Storage
5. Graphene-Based Materials: Engineering Advanced Energy Storage Solutions
6. Metal Oxides: High-Performance Electrode Materials for Batteries and Supercapacitors
7. Metal Sulfides: Promising Electrode Materials for Energy Storage Systems
8. Conducting Polymers in Energy Storage Systems
9. MXenes: Emerging 2D Carbides and Nitrides for Next-Generation Energy Storage
10. MBenes: Emerging 2D Boride Materials for Energy Storage Systems
11. Organometallic Frameworks: Tunable Architectures for Electrochemical Energy Storage
12. MOF-Derived Porous Materials: Bridging Structural Design and Energy Applications
13. MOF/MXene Composites: Synergistic Architectures for High-Performance Energy Devices
14. MXene-Polymer Composites: Engineering Conductive and Flexible Energy Storage Materials
Part III: Emerging Technologies and Future Directions
15. Biomass-Derived Materials: Green and Sustainable Electrodes for Energy Storage
16. Hydrogel-Based Electrodes: Soft and Flexible Materials for Energy Storage
17. Self-Healing Energy Storage Materials: Adaptive Solutions for Long-Term Stability
18. Thin-Film Energy Storage Devices: Nanoscale Engineering for Sustainable Energy Solutions
19. Computational Modeling in Energy Storage: Designing Materials and Predicting Performance
20. Energy Storage Revolution: Challenges, Breakthroughs, and Market Prospects
1. Energy Storage Fundamentals: Design and Performance Metrics
2. Essentials of Battery Technology: Principles and Performance Indicators
3. Electrolytes and Separators in Energy Storage: Optimizing Ion Transport and Device Stability
Part II: Advanced Functional Materials for Energy Storage Systems
4. Carbon Quantum Dots and Composite Materials: Versatile Platforms for Energy Storage
5. Graphene-Based Materials: Engineering Advanced Energy Storage Solutions
6. Metal Oxides: High-Performance Electrode Materials for Batteries and Supercapacitors
7. Metal Sulfides: Promising Electrode Materials for Energy Storage Systems
8. Conducting Polymers in Energy Storage Systems
9. MXenes: Emerging 2D Carbides and Nitrides for Next-Generation Energy Storage
10. MBenes: Emerging 2D Boride Materials for Energy Storage Systems
11. Organometallic Frameworks: Tunable Architectures for Electrochemical Energy Storage
12. MOF-Derived Porous Materials: Bridging Structural Design and Energy Applications
13. MOF/MXene Composites: Synergistic Architectures for High-Performance Energy Devices
14. MXene-Polymer Composites: Engineering Conductive and Flexible Energy Storage Materials
Part III: Emerging Technologies and Future Directions
15. Biomass-Derived Materials: Green and Sustainable Electrodes for Energy Storage
16. Hydrogel-Based Electrodes: Soft and Flexible Materials for Energy Storage
17. Self-Healing Energy Storage Materials: Adaptive Solutions for Long-Term Stability
18. Thin-Film Energy Storage Devices: Nanoscale Engineering for Sustainable Energy Solutions
19. Computational Modeling in Energy Storage: Designing Materials and Predicting Performance
20. Energy Storage Revolution: Challenges, Breakthroughs, and Market Prospects