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Fundamentals and Industrial Applications of Magnetic Nanoparticles
1st Edition - March 30, 2022
Editors: Chaudhery Mustansar Hussain, Ketaki Ketan Patankar
Paperback ISBN:
9 7 8 - 0 - 1 2 - 8 2 2 8 1 9 - 7
eBook ISBN:
9 7 8 - 0 - 1 2 - 8 2 2 9 9 8 - 9
Fundamentals and Industrial Applications of Magnetic Nanomaterials highlights industrial applications of magnetic nanoparticles, reviews their rapidly emerging applications, and… Read more
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Fundamentals and Industrial Applications of Magnetic Nanomaterials highlights industrial applications of magnetic nanoparticles, reviews their rapidly emerging applications, and discusses future research directions. The book emphasizes the structure-property-functionality of magnetic nanoparticles for the most relevant industry applications. After reviewing the fundamentals, industry applications in the biomedical, pharma, environmental, cosmetics and energy industries are explored. Cross-cutting barriers to commercialization are then discussed, along with legal, health and safety implications. Finally, opportunities for enabling a more sustainable future are covered. This book is suitable for researchers and practitioners in academia and industry in materials science and engineering, chemistry and chemical engineering.
- Reveals fundamental concepts of magnetic nanoparticles for modern industries and perspectives
- Establishes routes for the utilization of magnetic nanoparticles in commercial-scale manufacturing
- Discusses opportunities for magnetic nanoparticles to help enable sustainable applications
Materials Scientists and Engineers Chemists; Chemical Engineers
- Cover image
- Title page
- Table of Contents
- Copyright
- List of contributors
- About the editors
- Preface
- Part I: Introduction
- 1. Introduction and applications of magnetic nanoparticles
- Abstract
- 1.1 Introduction
- 1.2 Classification and industrial applications of magnetic nanoparticles
- References
- 2. An essential advancement of magnetic nanoparticles
- Abstract
- 2.1 Introduction to magnetic nanoparticles
- 2.2 Origin of magnetism
- 2.3 Physical properties of nanomagnetic materials
- 2.4 Synthesis of magnetic nanoparticles
- 2.5 Advanced process in magnetic materials
- 2.6 Applications of magnetic nanoparticles
- 2.7 Conclusions
- References
- Part II: Magnetic nanoparticles: synthesis, functionalization and characterization
- 3. Novel magnetic materials preparation, characterizations and their applications
- Abstract
- 3.1 Introduction
- 3.2 Benefits and applications of nanomagnetic materials
- 3.3 Classifications of magnetic materials and their applications
- 3.4 Synthesis process/techniques of nanomagnetic materials
- 3.5 Characterization techniques for nanomagnetic materials
- 3.6 Biomedical applications of magnetic materials
- 3.7 Limitations of the nanomagnetic materials
- 3.8 Conclusions
- Acknowledgment
- Conflict of interest
- References
- 4. Covalent functionalized silica-coated magnetic nanoparticles: classification, synthetic methods and their applications
- Abstract
- 4.1 Introduction
- 4.2 Decoration of silica-coated magnetic nanoparticles with ligand and complex
- 4.3 Silica-coated magnetic nanoparticles decoration with crown ethers and calixarenes
- 4.4 Silica-coated magnetic nanoparticles decoration with organic fluorophores
- 4.5 Silica-coated magnetic nanoparticles decoration with carbohydrates and carbohydrate-based natural polymers
- 4.6 Silica-coated magnetic nanoparticles decoration with dendritic polymers
- 4.7 Silica-coated magnetic nanoparticles decoration with other synthetic polymer
- 4.8 Silica-coated magnetic nanoparticles decoration with ionic liquids and poly ionic liquids
- 4.9 Silica-coated magnetic nanoparticles decoration with carbon
- 4.10 Conclusion
- References
- 5. Neutron as a tool to study the structural and other properties of magnetic nanoparticles
- Abstract
- 5.1 Introduction
- 5.2 Discovery of the neutron and its use as a tool in technology and materials science research
- 5.3 Potential for neutrons of being used as probe in spectroscopy experiments
- 5.4 Broad classification of neutron scattering
- 5.5 Neutron–matter interaction
- 5.6 Neutron scattering technique
- 5.7 Small angle neutron scattering
- 5.8 Inelastic neutron scattering
- 5.9 Conclusion
- References
- 6. Carbon and isostructural boron nitride nanomaterials doped with ferromagnetic clusters
- Abstract
- 6.1 Introduction
- 6.2 Carbon-based nanomaterials
- 6.3 Boron nitride-based nanomaterials
- 6.4 Conclusion
- Acknowledgment
- References
- Part III: Magnetic nanoparticles in biomedical industry
- 7. Surface functionalization of magnetic nanoparticles: potentials for biomedical applications
- Abstract
- 7.1 Introduction
- 7.2 Surface functionalization of magnetic nanoparticles
- 7.3 Effect of capping agent on the particle size and shape of magnetic resonance imaging
- 7.4 Biomedical applications of functionalized magnetic resonance imaging
- 7.5 Conclusion
- References
- 8. Oxide-based magnetic nanoparticles: preparation, properties, functionalization, and applications in biomedical and environmental fields
- Abstract
- 8.1 Introduction
- 8.2 General properties of magnetic nanoparticles
- 8.3 Oxide-based magnetic nanoparticles
- 8.4 Application of oxide-based magnetic nanoparticles
- 8.5 Summary and future prospective
- References
- 9. Magnetic nanoparticles as contrast agents in magnetic resonance imaging and radiosensitizers in radiotherapy
- Abstract
- 9.1 Introduction
- 9.2 Magnetic nanoparticles
- 9.3 Magnetic resonance imaging
- 9.4 Radiotherapy
- 9.5 Conclusion
- Acknowledgment
- References
- 10. Applicability of silver nanoparticles and innovation of magnetic nanoparticles in dentistry
- Abstract
- 10.1 Introduction
- 10.2 Silver nanoparticles
- 10.3 Silver nanoparticles in dentistry
- 10.4 Biological properties of silver nanoparticles in dentistry
- 10.5 Advances in nanoparticles
- Acknowledgment
- References
- 11. Iron oxide nanoparticles: current and future applications in nanomedicine
- Abstract
- 11.1 Introduction
- 11.2 Progress of iron oxide nanoparticles in nanomedicine
- 11.3 Current challenges of iron oxide nanoparticles in nanomedicine with prospective solutions
- 11.4 Advanced applications of iron oxide nanoparticles in nanomedicine
- 11.5 Future specializations required in nanomedicine
- 11.6 Conclusion
- References
- 12. Application of magnetic nanoparticles as drug delivery in cancer
- Abstract
- 12.1 Introduction
- 12.2 MNPs preparation and surface modification is a prerequisite parameter for biomedical application
- 12.3 Magnetic nanoparticle and cancer drug delivery
- 12.4 Magnetic hyperthermia for cancer drug delivery
- 12.5 Magnetic nanoparticles as theranostic
- 12.6 Future perspective
- 12.7 Conclusion
- Acknowledgment
- References
- 13. Magnetic nanoparticles and their application in bioanalysis
- Abstract
- 13.1 Introduction
- 13.2 Materials and methods
- 13.3 Results and discussion
- 13.4 Conclusion
- References
- 14. Recent developments and upcoming perspective of magnetic nanoparticles in biomedical applications
- Abstract
- 14.1 Introduction
- 14.2 Magnetic nanoparticles in biomedical applications
- 14.3 Applications of magnetic nanoparticles in biotechnology
- 14.4 Applications of magnetic nanoparticles in nanomedicine
- 14.5 Concluding remarks and future directions
- References
- Part IV: Magnetic nanoparticles in catalysis industry
- 15. Magnetic nanoparticles in catalysis industry
- Abstract
- 15.1 Introduction
- 15.2 Magnetic nanoparticles in different types of catalytic reactions
- 15.3 Magnetic nanoparticles in industrial catalysis
- 15.4 Conclusion
- References
- Part V: Magnetic nanoparticles in environmental industry
- 16. Engineered magnetic nanoparticles for environmental remediation
- Abstract
- 16.1 Introduction
- 16.2 Synthesis, stabilization, and functionalization
- 16.3 Removal of environmental pollutants by magnetic nanoparticles
- 16.4 Summary and future perspectives
- References
- Part VI: Magnetic nanoparticles in oil industry
- 17. Applications of magnetic nanoparticles in thermal enhanced oil recovery
- Abstract
- 17.1 Introduction
- 17.2 Properties of magnetic nanoparticles
- 17.3 Thermal enhanced oil recovery methods
- 17.4 Effect of magnetic nanoparticles in thermal enhanced oil recovery
- 17.5 Surface modification of magnetic nanoparticles
- 17.6 Transport of magnetic nanoparticles through porous media
- 17.7 Advantages and disadvantages of magnetic nanoparticles
- 17.8 Challenges of using magnetic nanoparticles
- 17.9 Future prospects of magnetic nanoparticles
- 17.10 Conclusions
- Acknowledgments
- References
- 18. Magnetic materials in oil applications
- Abstract
- Abbreviations
- 18.1 Introduction
- 18.2 Enhanced oil recovery
- 18.3 Reservoir monitoring
- 18.4 Flow assurance and conformance control
- 18.5 Drilling and well completion
- 18.6 Conclusions of application of magnetic materials in oil industry
- 18.7 Challenges and perspectives of application of magnetic materials oil industry
- References
- Part VII: Magnetic nanoparticles in energy industry
- 19. Magnetic nanoparticles for high energy storage applications
- Abstract
- 19.1 Introduction
- 19.2 Magnetic nanoparticles
- 19.3 Applications in electrochemical energy storage
- 19.4 Applications in thermal energy storage
- 19.5 Conclusions
- References
- Part VIII: Magnetic nanoparticles in dye industry
- 20. Application of magnetic nanocomposite in adsorptive remediation of synthetic dye-laden wastewater
- Abstract
- 20.1 Introduction
- 20.2 Experimental and analytical methodology
- 20.3 Results and discussion
- 20.4 Conclusion
- References
- Part IX: Future applications of magnetic nanoparticles
- 21. Present and future applications of magnetic nanoparticles in the field of medicine and biosensors
- Abstract
- 21.1 Introduction
- 21.2 Properties of magnetic nanoparticles
- 21.3 Present and future applications of magnetic nanoparticles in the field of medicine and biosensor
- 21.4 Conclusions
- References
- 22. Thermal plasma: technology of future for the processing of nanocrystalline magnetic materials
- Abstract
- 22.1 Introduction
- 22.2 Nanomaterials and nanotechnology
- 22.3 Plasma: fundamental concept
- 22.4 Generation of thermal plasmas
- 22.5 Thermal plasma processing of materials
- 22.6 Advantages of thermal plasma devices
- 22.7 Thermal plasma reactor for processing of magnetic nanomaterials
- 22.8 Magnetic materials system and their properties
- 22.9 Optimization of synthesis parameters for nickel ferrite
- 22.10 Magnetic properties of thermal plasma synthesized nickel ferrites
- 22.11 Other magnetic systems
- 22.12 Conclusions
- References
- Index
- No. of pages: 736
- Language: English
- Published: March 30, 2022
- Imprint: Woodhead Publishing
- Paperback ISBN: 9780128228197
- eBook ISBN: 9780128229989
CH
Chaudhery Mustansar Hussain
Dr. Chaudhery Mustansar Hussain is an adjunct professor and director of laboratories in the Department of Chemistry & Environmental Sciences at the New Jersey Institute of Technology (NJIT), Newark, New Jersey, United States. His research is focused on the applications of nanotechnology and advanced materials, environmental management, analytical chemistry, and other various industries. Dr. Hussain is the author of numerous papers in peer-reviewed journals as well as a prolific author and editor of several books, including scientific monographs and handbooks in his research areas.
Affiliations and expertise
Adjunct Professor, New Jersey Institute of Technology (NJIT)KP
Ketaki Ketan Patankar
Dr. Ketaki Ketan Patankar is an Assistant Professor in the Department of Physics at Rajaram College. Dr. Patankar’s research focuses on magnetoelectric nanocomposite materials.
Affiliations and expertise
Assistant Professor, Department of Physics at Rajaram College, India