Magnetic Nanoparticles and Polymer Nanocomposites
Fundamentals and Biological, Environmental and Energy Applications
- 1st Edition - March 20, 2024
- Editors: Imran Khan, Anish Khan, Mohammad Mujahid Ali Khan
- Language: English
- Paperback ISBN:9 7 8 - 0 - 3 2 3 - 8 5 7 4 8 - 2
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 9 0 3 4 1 - 7
Magnetic Nanoparticles and Polymer Nanocomposites: Fundamentals and Biological, Environmental and Energy Applications focuses on the manufacturing and design of innovativ… Read more
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Request a sales quoteMagnetic Nanoparticles and Polymer Nanocomposites: Fundamentals and Biological, Environmental and Energy Applications focuses on the manufacturing and design of innovative magnetic polymeric nanocomposite materials for a broad range of different applications. These materials have truly outstanding and sustainable properties unlike other composites because they are combined with both organic (polymer matrix) and inorganic (semiconductor nanoparticles) materials to form a sustainable composite material. The book's focus is on magnetic semiconductor and polymer nanocomposites made from bioresorbable and biocompatible polymers, modified with magnetic nanoparticles.
This book provides detailed knowledge on the modern research application of magnetic semiconductor and polymeric nanocomposites that have tremendous commercial value. In addition, these nanocomposite materials are also a good source for the renewable energy-based industry.
- Covers magnetic nanoparticles and polymer nanocomposites in environmental, renewable energy, water treatment, energy storage and biomedical applications
- Provides fundamental knowledge on design, synthesis, properties investigation, applications and manufacturing
- Emphasizes recent advances on magnetic nanoparticles and polymer nanocomposites
- Cover image
- Title page
- Table of Contents
- About the series
- Copyright
- Contributors
- Chapter 1. Advances in magnetic nanoparticle for biomedical applications
- 1.1. Introduction
- 1.2. The synthesis and properties of magnetic nanoparticles
- 1.3. Biomedical applications of magnetic nanoparticles
- 1.4. Advantages of magnetic nanoparticles
- 1.5. Conclusions
- Chapter 2. Magnetic polymeric and silver nanocomposites: Properties, synthesis, and antimicrobial evaluation
- 2.1. Introduction
- 2.2. Synthesis of magnetic polymeric silver nanocomposites (Ag@Fe3O4NCs)
- 2.3. Properties of Ag@Fe3O4NCs
- 2.4. Mechanism of action of Ag@Fe3O4NCs
- 2.5. Antimicrobial activity and evaluation studies of Ag@Fe3O4NCs
- 2.6. Conclusion
- Chapter 3. Graphene-based magnetic nanoparticles
- 3.1. Introduction
- 3.2. Approaches to fabricated graphene-based magnetic nanoparticles
- 3.3. Applications of graphene magnetic nanoparticles
- 3.4. Biomedical applications
- 3.5. Environmental applications for water purification
- 3.6. Gaps and challenges
- Chapter 4. Biomedical applications of rare earth element (REE) doped magnetic ferrite nanoparticles and nanocomposites
- 4.1. Introduction
- 4.2. Metal oxides
- 4.3. Rare earth element
- 4.4. Antibacterial analysis
- 4.5. Ferrites
- 4.6. Synthesis of nanomaterials
- 4.7. Applications
- 4.8. Antibacterial performance
- 4.9. Conclusions
- Chapter 5. Recent advances in magnetic nanoparticle–enabled drug delivery attributes of polymer nanocomposites
- 5.1. Introduction
- 5.2. Fundamental structural and therapeutic aspects of magnetic nanoparticles
- 5.3. Polymer nanocomposites: Fundamental aspects
- 5.4. How magnetic nanoparticles can further improve the drug delivery potential of polymer nanocomposites
- 5.5. Summary and future prospects
- 5.6. Conclusions
- Chapter 6. Polymer-coated magnetic nanoparticles for cancer therapy
- 6.1. Introduction
- 6.2. Magnetic properties of nanostructures
- 6.3. Supermagnetic feature
- 6.4. Magnetic nanomaterials in biomedical applications
- 6.5. Basic principles of methods used to target tumors with magnetic nanoparticles
- 6.6. Passive targeting based on EPR phenomenon
- 6.7. Active targeting using tumor-specific molecular ligands
- 6.8. Active targeting using external magnetic field
- 6.9. Cancer treatment with the assistance of magnetic hyperthermia
- 6.10. Using magnetic nanoparticles in medical imaging
- 6.11. Conclusion
- Chapter 7. Magnetic semiconductors and polymer nanocomposites for degradation of organic pollutants and treatment of water
- 7.1. Introduction
- 7.2. Magnetic semiconductor photocatalysts
- 7.3. Polymer nanocomposites
- 7.4. Conclusions
- Chapter 8. Magnetic nanoparticles–polymer composites for multifeatured drug delivery
- 8.1. Introduction
- 8.2. Classification
- 8.3. Synthesis of magnetic polymer nanocomposites
- 8.4. Requirements for drug delivery through magnetic nanocomposite
- 8.5. Applications
- 8.6. Conclusion
- Chapter 9. Multifunctional polymer nanocomposites with magnetic nanoparticles: design, synthesis, and biomedical applications
- 9.1. Introduction
- 9.2. Design and synthesis of nanocomposites with magnetic nanoparticles
- 9.3. Heterogenous polymerization processes applied to the synthesis of magnetic nanocomposites
- 9.4. Biomedical applications
- 9.5. Conclusions
- Chapter 10. Nanocomposites of magnetic nanoparticles and graphene oxide in water and food sample analysis
- 10.1. Introduction
- 10.2. Synthesis and applications of GO/MNPs in removal of heavy metals from water and food samples
- 10.3. Conclusions
- Chapter 11. Magnetic nanocomposites for biomedical and environmental applications
- 11.1. Introduction
- 11.2. Methods on synthesis of MNPs
- 11.3. Characterization
- 11.4. Applications
- 11.5. Conclusions
- Chapter 12. Magnetic polyurethane composites—fabrication and applications
- 12.1. Introduction
- 12.2. Magnetic polyurethane composite matrices
- 12.3. Magnetic polyurethane composite foams & sponges
- 12.4. Summary and conclusions
- Chapter 13. Magnetic composites: fundamentals, synthesis, and applications
- 13.1. Magnetic technology
- 13.2. Magnetic separation
- 13.3. Magnetic composites
- 13.4. Applications of magnetic composites
- Biography
- Chapter 14. Impact of the rare earth elements doping on the copper ferrite spinel magnetic nanoparticles
- 14.1. Introduction
- 14.2. Magnetic metal oxides
- 14.3. Copper ferrite
- 14.4. Rare earth metals
- 14.5. Synthesis techniques
- 14.6. REM-doped Cu ferrite nanoparticles
- 14.7. Conclusions
- Chapter 15. Novel magnetic nanocomposites and their environmental applications
- 15.1. Introduction
- 15.2. Types of magnetic nanocomposites and their preparation methods
- 15.3. Role of magnetic nanocomposites on environmental
- 15.4. Conclusions
- Chapter 16. Role of magnetic polymer–coated nanoparticles in separation sciences
- 16.1. Introduction
- 16.2. Magnetic separator design strategies
- 16.3. Stabilization/protection of magnetic nanoparticles
- 16.4. Molecularly imprinted polymers–coated magnetic NPs in separation science
- 16.5. Magnetic nanoparticles coated with polymer containing functional group in separation sciences
- 16.6. Application of magnetic separation for biological analysis
- 16.7. Conclusion
- Chapter 17. Adsorption of heavy metal ions based on stimuli-responsive polymer–functionalized magnetic nanoparticles
- 17.1. Introduction
- 17.2. Polymer functionalization of magnetic particles
- 17.3. Comb-type polymers and stimuli-responsive functionalization
- 17.4. The use of these materials in the adsorption of heavy metals
- 17.5. Mechanism of absorption of heavy metals
- 17.6. Water treatment and other applications
- 17.7. Conclusion
- Acknowledgments
- Chapter 18. Magnetic nanoparticles and nanocomposites for the applications of photocatalytic degradation of organic dyes
- 18.1. Introduction
- 18.2. Method of synthesis of magnetic nanoparticles
- 18.3. Types of magnetic nanoparticles
- 18.4. Dyes used for degradation
- 18.5. Photocatalytic degradation of dyes
- 18.6. Conclusions
- Chapter 19. Magnetic-based nanocomposites for hydrogen generation as renewable energy
- 19.1. Introduction
- 19.2. Synthesis of magnetic-based materials
- 19.3. Hydrogen gas production using magnetic-based materials
- 19.4. Hydrolysis of hydrides
- 19.5. Electrochemical water splitting
- 19.6. Photocatalysis for hydrogen generation via water splitting
- 19.7. Hydrogen generation via reforming chemicals
- 19.8. Conclusions
- Chapter 20. Magnetic Fe3O4 and its composites for electrochemical sensing applications
- 20.1. Introduction
- 20.2. Fabrication of electrochemical sensor
- 20.3. Progress in MNPs-based electrochemical sensors
- 20.4. Conclusions and future perspectives
- Chapter 21. Magnetic nanocomposites for energy storage and wastewater treatment applications
- 21.1. Introduction
- 21.2. Structure of perovskite photocatalyst
- 21.3. Preparation of perovskite photocatalyst by chemical methods
- 21.4. Environmental applications of perovskite materials
- 21.5. Perovskite materials for photocatalytic activity
- 21.6. Conclusions
- Chapter 22. Removal of organic pollutants from wastewater using spinel manganese ferrite nanoparticles
- 22.1. Introduction
- 22.2. Conclusions
- Chapter 23. Metal oxide–based spinel ferrite magnetic nanocomposites for hydrogen production
- 23.1. Introduction
- 23.2. Spinel ferrites and their metal oxide composites for water splitting
- 23.3. Commonly used water-splitting methods
- 23.4. Photoelectrochemical application of metal oxide–based spinel ferrite magnetic nanocomposites
- 23.5. Photocatalytic application of metal oxide–based spinel ferrite magnetic nanocomposites
- 23.6. Conclusion and future outlook
- Index
- No. of pages: 634
- Language: English
- Edition: 1
- Published: March 20, 2024
- Imprint: Woodhead Publishing
- Paperback ISBN: 9780323857482
- eBook ISBN: 9780323903417
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Imran Khan
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Anish Khan
Dr. Anish Khan is currently working as Assistant Professor in Chemistry Department, Centre of Excellence for Advanced Materials Research (CEAMR), Faculty of Science, King Abdulaziz University, Jeddah, Saudi Arabia. Completed Ph.D. from Aligarh Muslim University, India in 2010. Completed Postdoctoral from School of Chemical Sciences, University Sains Malaysia (USM) in Electroanalytical chemistry in 2010. Working in the field of synthetic biosensor, polymer composites, organic–inorganic electrically conducting nanocomposites. More than 200 research articles, 70 book chapters 30 books published in referred international publisher and more than 20 international conferences/ workshop. More than 30 research projects completed. Editorial board member of more than 11 international journals. Member of American Nano Society.
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