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Full Description
As an emerging material platform, multifunctional coordination materials offer many advantages such as remarkable porosity, structural flexibility, crystallinity, and modifiable functionalities that render them highly suited to generate and store green energy. This book covers the design and fabrication approaches of multifunctional coordination materials for green energy-related technologies, including batteries, supercapacitors, solar cells, and nanogenerators.
Discusses fundamentals of multifunctional coordination materials
Explains vital synthesis and design techniques as well as theoretical modeling
Offers a comprehensive overview of preparation, structural and morphological properties, and applications in a wide variety of energy production, energy storage, and energy device technologies
Assesses environmental impacts, recycling, challenges, and future perspectives
Multifunctional Coordination Materials for Green Energy Technologies is an ideal reference for advanced students and researchers working in materials engineering, including new catalyst development, battery design, and related areas.
Contents
1. Multifunctional Coordination Materials: An Introduction. 2. Design Principles and Functional Characteristics of Multifunctional Coordination Materials. 3. Synthesis Strategies of Coordination Materials. 4. Analysis and Characterization Techniques for Coordination Nanomaterials. 5. Theoretical Modeling of Coordination Materials. 6. Coordination Nanomaterials for Energy Storage: An Introduction. 7. Coordination Nanostructures for Metal-ions Batteries. 8. Coordination nanomaterials for metal air batteries. 9. Coordination Materials for Supercapacitors. 10. Multifunctional Coordination Materials for Green Energy Production: An Introduction. 11. Coordination Nanostructures for Green Hydrogen Generation. 12. Coordination Nano-architectures for Nitrogen Reduction Reactions. 13. Coordination Nanomaterial-Based Nanohybrids for Solar Cells. 14. Coordination Nanomaterials for Nanogenerators Technology. 15. Recycling of Coordination Nanomaterials-based Energy Devices.
