This book provides a comprehensive analysis of the application of Metal-Organic Frameworks (MOFs) in corrosion protection, consolidating current knowledge and offering insights into potential future advancements in the field. It is aimed at researchers, graduate students in materials science, corrosion science, and related fields.
This book provides a comprehensive analysis of the application of metal-organic frameworks (MOFs) in corrosion protection, consolidating current knowledge and offering insights into potential future advancements in the field. It explores the methods used to fabricate MOF coatings, discussing their advantages, disadvantages, and suitability for various harsh environments. The book also includes industrial case studies, highlighting real-world applications and providing guidance on the future potential of MOFs as anticorrosive coatings.
Features:
- Explores the function of MOFs as anticorrosive coatings, addressing their characteristics, methods of manufacture, and real-world uses
- Discovers how MOF coatings offer superior durability and longevity compared to traditional coatings
- Offers step-by-step guidance on choosing the right protective measures for different materials and environments
- Demonstrates binding effectiveness of MOF coatings with different metallic surfaces using experimental and computational approaches
- Reviews the broad applicability of MOF coatings across various industries
This book is aimed at researchers, graduate students in materials science, corrosion science, and related fields, as well as industry professionals seeking to understand and apply the latest developments in corrosion protection.
1. Introduction to Corrosion: Fundamentals and Implication
2. Corrosion
Prevention: Current and Historical Advancements and Future Directions
3. Role
of Coatings in Corrosion Protection
4. Potential Use of Smart Coatings for
Corrosion Protection
5. Understanding Anticorrosion Coating Failure and
Degradation Pathways
6. Introduction to Metal-Organic Frameworks in Corrosion
Mitigation
7. Corrosion Inhibition Mechanisms of Metal-Organic Framework
Coatings
8. Synthesis and Characterization Techniques for Anticorrosive MOF
Coatings
9. Performance Evaluation of Anticorrosive Metal-Organic Framework
Coatings
10. Surface Modifications and Functionalization of Anticorrosive MOF
Coatings
11. Industrial Applications of Anticorrosive Metal-Organic
Frameworks-Based Coatings
12. Environmental Considerations in Anticorrosive
MOF Coating Development
13. Health and Safety Considerations in the
Application of Metal-Organic Framework Coatings
14. Computational Modeling
Approaches for Predicting Anticorrosive MOF Coating Performance
15.
Challenges and Opportunities in MOF-Based Corrosion Control
16. Conclusion
and Future Directions in Anticorrosive MOF-Based Coatings
Ashish Kumar is currently working as a Professor (Chemistry), Dean Academics and Head, Applied Science and Humanities at Nalanda College of Engineering, Bihar Engineering University under Department of Science, Technology and Technical Education, Government of Bihar, India. His area of research includes materials chemistry, corrosion, nano materials, environmental science, surface chemistry and solution thermodynamics.
Ambrish Singh is working as a Professor in the Department of Chemistry, Nagaland University, Lumami, Nagaland, India. His research interests are mainly focused on corrosion, electrochemistry, green chemistry, quantum chemistry, smart coatings, polymers, nano-materials, composites, and petroleum engineering.
Humira Assad is currently a postdoctoral fellow in the Department of Metallurgical Engineering and Materials Science at the Indian Institute of Technology Bombay. With nearly five years of research experience, she specializes in Electrochemistry, Corrosion, Nanomaterials, green chemistry, polymer composite coatings, Surface Chemistry, and Computational Chemistry.
