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Full Description
A definitive resource on superamphiphobic surfaces, covering their fabrications, characterizations, practical applications, challenges, and future directions
Superamphiphobic Surfaces: Fabrication, Characterization, and Applications addresses a critical knowledge gap in the field of superamphiphobic surfaces, a class of materials with the extraordinary ability to repel water, oil, and other liquids, by both exploring their fundamentals and also offering detailed insights into their fabrication techniques, characterization methods, and durability considerations. The book presents practical applications of superamphiphobic surfaces in self-cleaning, anti-fouling, environmental clean-up, biomedicine, and food packaging and processing.
The book is divided into five parts. Part I lays the foundation for understanding superamphiphobic surfaces by introducing the fundamental principles that govern their behavior. Part II discusses the fabrication techniques developed to produce superamphiphobic surfaces with varying complexity, durability, and functionality. Part III provides guidelines to evaluate the performance of superamphiphobic surfaces. Part IV highlights several key areas where these surfaces are already being applied. Part V addresses the current challenges and prospects of superamphiphobic surfaces.
Written by an experienced team of researchers, Superamphiphobic Surfaces covers sample topics such as:
The increased level of sophistication required to achieve superoleophobicity, particularly for liquids with low surface tension
Contact angle hysteresis, wetting regimes, and the role of micro- and nanoscale structures in achieving extreme liquid repellency
Specific challenges associated with scaling up fabrication techniques in industrial applications
Performance criteria including mechanical durability, resistance to liquid impalement, and self-healing capabilities
The lifespan of various materials in harsh environments such as oil rigs, pipelines, and marine vessels
Empowering readers with knowledge to drive innovation, solve practical problems, and enhance their expertise, Superamphiphobic Surfaces is an essential reference for researchers and professionals in materials science, healthcare, environmental protection, and other fields.
Contents
Section I: Fundamentals and Fabrication of Superamphiphobic Surfaces
1. Superamphiphobic Surfaces: An Introduction
2. Micro- and Nanostructuring Techniques for Superamphiphobic Surfaces
3. Chemical Modification and Functionalization for Superamphiphobicity
4. Biomimetic Approaches to Superamphiphobic Surface Fabrication
5. Multiscale Surface Features in Superamphiphobic Materials
6. Advanced Coatings and Self-Assembly in Superamphiphobic Surface Fabrication
7. Polymeric Superamphiphobic Surfaces
8. Surface Energy and Wettability Engineering for Superamphiphobic Surfaces
9. Challenges and Innovations in Superamphiphobic Surface Fabrication
Section II: Characterization Techniques and Durability Considerations
10. Characterization Techniques for Superamphiphobic Surfaces
11. Surface Roughness and Topography Analysis in Superamphiphobicity
12. Mechanical Testing and Durability Evaluation of Superamphiphobic Materials
13. Environmental and Chemical Stability Testing for Superamphiphobic Surfaces
14. Self-healing Superamphiphobic Surfaces
15. Advancements in Enhancing Mechanical and Chemical Durability of Superamphiphobic Surfaces
Section III: Applications of Superamphiphobic Surfaces
16. Emerging Applications and Innovations in Superamphiphobic Technology
17. Self-Cleaning Applications of Superamphiphobic Surfaces
18. Superamphiphobic Materials in Anti-Fouling Strategies and Applications
19. Superamphiphobic Surfaces in Oil-Water Separation and Environmental Clean-up
20. Advanced Superamphiphobic Surfaces for Ice Prevention and Removal
21. Biomedical and Healthcare Uses of Superamphiphobic Materials
22. Superamphiphobic Surfaces in Food Packaging and Processing
23. Superamphiphobic Textiles and Their Applications
24. Superamphiphobicity for Other Technological Applications
Section IV: Limitations, Challenges and Future Prospects
25. Superamphiphobic Surfaces: Current Challenges and Future Prospects
