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Full Description
Provides an in-depth exploration of cutting-edge PCM materials, including salt hydrates, ionic liquids, porous-based composites, nano-engineered PCMs and metal-organic frameworks, highlighting their synthesis, thermophysical properties and how innovative modifications improve thermal conductivity, stability and energy storage efficiency. Readers will gain insights into next-generation PCMs including photo-switchable, magnetically multifunctional, and thermo-responsive smart PCMs and how these advanced materials enable adaptive and on-demand thermal management, making them highly relevant for applications in energy storage, electronics, textiles, and biomedical fields.
The book emphasizes eco-friendly and bioinspired PCM technologies, including nature-derived materials such as biopolymers and biochar composites. Provides solutions for key challenges in sustainable energy storage, exploring how nature-inspired microcapsules and hierarchical structures improve PCM stability, heat transfer and environmental sustainability. Describes the practical implementation of PCMs, detailing their use in renewable energy systems, flexible electronics, 3D-printed PCM structures and wearable thermal management solutions, including fabrication techniques, scalability and real-world applications, providing valuable insights for researchers, engineer, and industry professionals.
Contents
1. Thermal energy storage via phase change materials (PCMs)
2. Salt hydrate and ionic PCMs
3. Porous structured PCMs
4. Silica material enhanced PCMs
5. Nano-engineered PCMs
6. Metal-organic framework-based PCMs
7. Photo-switchable PCMs
8. Magnetically multifunctional PCMs
9. Bioinspired PCMs
10. 3D-Printed PCMs
11. Flexible PCMs
12. Thermo-responsive and thermo-regulated smart PCMs
