Nanostructured Materials: Physicochemical Fundamentals for Energy and Environmental Applications

Nanostructured Materials: Physicochemical Chemistry Fundamentals for Energy and Environmental Applications summarizes research knowledge and helps advanced students, researchers and industrial technicians understand specific applications of nanomaterials in energy and the environment. Sections bring a strong foundational focus on the physicochemical basis of nanomaterials for these applications, the basic theory and physicochemical basis of nanomaterials, an energy and environment applications examination of typical cases, and progress. This book will appeal to researchers in the chemical sciences (inorganic and physical chemistry, coordination chemistry, molecular dynamics, electrochemistry, photocatalysis, thermocatalysis, thermodynamics, etc.), nanoscience (graphene, carbon nanotubes, nanocrystals, nano catalysis, energy, and environment-nano science), and more. Efficient use of energy, eco-friendly environmental systems, and technologies play an important role in global sustainable development. Multifunctional nanocomposites have excellent properties and can meet the practical needs of energy development and environmental treatment. They have been gradually applied in chemical materials, energy preparation, pollution control and other fields and have achieved impressive development. Provides a unified overview of a large variety of different applications on the design and synthesis of nanomaterials with potential applications in various conventional and new energy and environmental technologies Provides a strong foundational focus on the analysis of the structure of nanomaterials, the basic principles of design (nanomaterial structure-activity relationship), and the theoretical basis of physical chemistry (theoretical basis of nanomaterial design and applications) Meets a need to summarize and examine ongoing research and advances in a rapidly developing field INDICE: Part One: Design fundamentals of nanomaterials1. Introduction2. Structure types and characteristics of nanomaterials3. Structure-performance relationship of nanomaterials4. Physicochemical basics and paradigms of nanomaterials5. Synthesis methods and paradigms of nanomaterials6. Characterization techniques and paradigms of nanomaterials Part Two: Application types of nanomaterials in energy and environment fields7. Supercapacitor: basic principles, electrode materials and applications8. Metal-ion battery: basic principles, electrode materials and applications9. Metal-air battery: basic principles, electrode materials and applications10. Metal-sulfur battery: basic principles, electrode materials and applications11. Fuel cells: basic principle, electrode material and applications12. Solar cells: basic principles, electrode materials and applications13. Electrocatalysis for energy conversion and environmental protection: fundamentals14. Photocatalysis energy conversion and environmental protection: fundamentals15. Sustainable production of energy gases: the function of nanomaterials16. Selective separation and storage of energy gases: the function of nanomaterials17. Adsorption in the treatment of three wastes: fundamentals18. Advanced oxidation in the treatment of three wastes: fundamentals Part Three: Application cases of nanomaterials in energy and environment fields19. 3-D graphene nanosheets: recent progress in energy and environmental fields20. Hollow carbon nanocages: recent progress in energy and environment fields21. Nano porous activated carbon: recent progress in energy and environment fields22. Nano manganese oxides: recent progress in energy and environment fields23. Nano stannic oxides: recent progress in energy and environment fields24. Nano nickel sulfides: recent progress in energy and environment fields25. Nano tungsten carbides: recent progress in energy and environment fields26. Nano polyaniline: recent progress in energy and environment fields27. Nano graphitic carbon nitride: recent progress in energy and environmental fields28. Nano bismuth oxometallates: recent progress in energy and environmental fields29. Nano MAXene: recent progress in energy and environmental fields30. Nano layered double hydroxide: recent progress in energy and environmental fields31. Nano Perovskite: recent progress in energy and environmental fields32. Atomically-dispersed catalysts: recent progress in energy and environmental fields Part Four: Opportunities, challenges, and future outlooks33. Opportunities34. Challenges35. Future Outlooks

• ISBN: 978-0-443-19256-2
• Editorial: Elsevier Science
• Encuadernacion: Rústica
• Páginas: 590
• Fecha Publicación: 04/09/2023
• Nº Volúmenes: 1
• Idioma: Inglés