Buch, Englisch, 424 Seiten, Format (B × H): 152 mm x 229 mm
Fundamentals, Applications and Future Challenges
Buch, Englisch, 424 Seiten, Format (B × H): 152 mm x 229 mm
ISBN: 978-0-323-90861-0
Verlag: Elsevier Science
Sustainable Nanostructured Batteries: Fundamentals, Applications and Future Challenges is designed systematically to offer its audience a taste of the fundamental aspects of batteries, leading to the existing challenges, while also highlighting the progress made to date.Sustainable Nanostructured Batteries: Fundamentals, Applications and Future Challenges has been divided into four parts. The first part provides introductory information about the significance of the role of an energy storage device to promote sustainability and to alleviate pressure from conventional energy resources. The second section discusses the synthesis of various novel nanostructured materials, their characterization, and functionalization. Part three highlights the role of nanostructured materials in energy storage devices, their working principles, strategies evolved to mitigate voltage, capacity, structural, and oxygen evolutions in advanced materials. Emphasis is also given on the recently developed theories to design novel high-power-density materials. The book concludes with a look at the application of novel energy materials in innovative energy practices, for instance, plug-in-hybrid electric vehicles, grid interconnections, and smart electrification.Sustainable Nanostructured Batteries: Fundamentals, Applications and Future Challenges is designed to appeal to a broad audience, from a novice in the field to an experienced researcher interested in a resource with the latest advanced in nanostructured energy storage materials.
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PART 1: Modern Age of Sustainability 1. Sustainability: the need of the hour 2. Technological challenges toward sustainability 3. Sustainable lithium-ion batteries 4. Future of lithium-ion batteries PART 2: Nanostructured Materials, synthesis, functionalization, characterization, and applications 5. What are nanomaterials: how big to how small 6. Nano: a fiction or a game-changer 7. Synthesis of nanomaterials 8. Functionalized nanomaterials and allied applications 9. Advanced characterizations 10. Applications PART 3: Nanostructured Sustainable Batteries 11. Development of batteries 12. Anode materials 13. Cathode materials 14. Electrolytes (Solid/Liquid) 15. Solid Electrolyte Interfacial Reactions and Characteristics 16. Past, present, and future of lithium-ion battery 17. Fast charging batteries 18. Batteries for future: A new alternative of Li-ion battery 19. Manufacturing cost for commercial batteries for Hybrid Electric Vehicles PART 4: Innovative Energy Practices & Future Society Challenges 20. Thermal Stability and Safety measure for battery 21. Recycling of battery 22. Thermodynamical aspects of battery
