Magnetic Nanoferrites and their Composites

Environmental and Biomedical Applications

1st Edition - May 25, 2023
Imprint: Woodhead Publishing
Editors: Susheel Kalia, Rohit Jasrotia, Virender Pratap Singh
Language: English
Paperback ISBN:
9 7 8 - 0 - 3 2 3 - 9 6 1 1 5 - 8
eBook ISBN:
9 7 8 - 0 - 3 2 3 - 9 5 8 4 6 - 2

Magnetic Nanoferrites and their Composites: Environmental and Biomedical Applications addresses recent developments in this important research field. The book covers the latest sy… Read more

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Magnetic Nanoferrites and their Composites: Environmental and Biomedical Applications addresses recent developments in this important research field. The book covers the latest synthesis and fabrication techniques, properties, characterization and multifunctional biomedical and environmental applications. Chapters provide cutting-edge research while addressing the latest scenarios, recent developments, future aspects, and challenges and opportunities attributed to their excellent properties, including large surface-to-volume ratio, high chemical stability, low eddy losses, moderate values of saturation magnetization and coercivity, large adsorption, non-toxicity, bio-degradable and biocompatibility. This book will be a valuable reference resource for researchers, engineers and technologists working in this important research field.

Magnetic nanoferrites and their composites are now utilized in a broad range of different application fields such as catalysis, biomedicine, magnetic resonance imaging (MRI), tissue targeting, drug delivery, sensors, environmental remediation, data storage, transformers, switching devices, high frequency and microwave devices.

Cover image
Title page
Table of Contents
Copyright
List of contributors
About the editors
Preface
1. Magnetic nanoferrites and related carbon-containing composites: synthesis, opportunities, and prospects
Abstract
1.1 Introduction
1.2 Magnetic nanoferrites and their composites
1.3 Conclusions
1.4 Outlooks
Acknowledgment
References
2. Synthesis of novel hard/soft nanoferrite composites
Abstract
2.1 Introduction
2.2 Structural features of ferrites
2.3 Synthesis techniques for the production of hard/soft ferrite composites
2.4 Concluding remarks
References
3. Fabrication of magnetic nanoferrites by green methods: structural, magnetic, and catalytic properties
Abstract
3.1 Introduction
3.2 Synthesis techniques for the production of magnetic nanoferrites using green reagents
3.3 Effects of green methods on the structural, magnetic, and catalytic traits of magnetic nanoferrites
3.4 Concluding remarks
References
4. Advancements in spinel nanoferrites
Abstract
4.1 Introduction
4.2 Synthesis of spinel ferrites
4.3 Crystal structure of spinel ferrites
4.4 Physical properties of spinel ferrites
4.5 Conclusions
References
5. Microstructural and magnetic properties of transition and rare-earth metals-substituted cobalt nanoferrites
Abstract
5.1 Ferrites
5.2 Methods for the preparation of cobalt ferrites
5.3 Literature survey of rare-earth doped CoFe2O4
5.4 Microstructural and magnetic properties of transition and rare-earth metal-substituted cobalt nanoferrites
5.5 Applications of transition and rare-earth metal-substituted cobalt ferrites
5.6 Conclusion and future prospects
References
6. Polymer-nanoferrite composites: structural, transport, and magnetic properties
Abstract
6.1 Introduction
6.2 Polymer nanoparticles
6.3 Nanoferrites
6.4 Properties of polymer-nanoferrites
6.5 Polymer-based nanoferrites and their synthesis
6.6 Conclusion and future outlooks
References
7. Potential applications of transition and rare-earth metal substituted magnesium nanoferrites
Abstract
7.1 Introduction
7.2 Synthesis of magnesium nanoferrites
7.3 Effects of transition and rare-earth metals doping on structural and magnetic traits of magnesium nanoferrites
7.4 Applications of magnesium nanoferrites
7.5 Conclusion
References
8. Magnetic nanoferrite-based composites for pH sensitive drug delivery applications
Abstract
8.1 Introduction
8.2 Synthesis of nanoferrites and nanocomposites
8.3 Characterization of nanoferrites and composites for drug delivery application
8.4 Toxicity of magnetic nanoferrite-based composites
8.5 Magnetic properties of nanoferrites and their composites
8.6 pH-responsive drug delivery application
8.7 Future prospects
8.8 Conclusion
References
9. Silver-substituted nanoferrite-based composites for biomedical applications
Abstract
9.1 Introduction
9.2 Synthesis of silver-doped ferrites and their composites
9.3 Biomedical application of silver-doped magnetic ferrites and their composites
9.4 Conclusion
References
10. Antimicrobial and antibacterial applications of ferrites and their polymer composites
Abstract
10.1 Introduction
10.2 Discovery and development of antimicrobials
10.3 Types of microbes
10.4 Advantages and disadvantages of existing antimicrobials
10.5 Mechanisms of antimicrobials
10.6 Material used as antimicrobials
10.7 Ferrites and their antimicrobial activity
10.8 Antimicrobial activity of ferrite and polymer-based ferrite composites
10.9 Conclusion
References
11. Magnetic nanoferrites as an alternative for magnetic resonance imaging application
Abstract
11.1 Introduction
11.2 Magnetic resonance imaging
11.3 Targeted drug delivery or intelligent medicine distribution
11.4 Applications in hyperthermia
11.5 Conclusion
Acknowledgment
Conflict of interest
References
12. A new generation of magnetic nanoferrite-based nanocomposites for environmental applications
Abstract
12.1 Introduction
12.2 Properties
12.3 Factors influencing the properties of nanoferrites
12.4 Synthesis
12.5 Photocatalytic water treatment
12.6 Conclusion and outlooks
References
13. Biopolymer/nanoferrite composites in environmental remediation
Abstract
13.1 Introduction
13.2 Wastewater remediation using nanoadsorbents
13.3 Preparation methods of nanoferrites
13.4 Surface modification methods for nanoferrites
13.5 Adsorption mechanism for nanoferrites and biopolymer/nanoferrite composites
13.6 Organic pollutant removal by biopolymer/nanoferrite composites
13.7 Inorganic pollutant removal by biopolymer/nanoferrite composites
13.8 Conclusion and future perspective
References
14. Utilization of magnetic nanoferrite-based photocatalysts for elimination of organic pollutants from wastewater
Abstract
14.1 Introduction
14.2 Classification of ferrites
14.3 Synthesis of magnetic nanoferrite-based photocatalysts
14.4 Photocatalysis
14.5 Conclusions
Acknowledgments
References
Index

Susheel Kalia

Susheel Kalia is Associate Professor and Head of the Department of Chemistry, at the Army Cadet College Wing of the Indian Military Academy in Dehradun, India. He was a Postdoc Researcher in 2013 and a Visiting Professor at the University of Bologna, Italy in 2020. Kalia has published over 85 research articles in international journals, as well as co-editing 20 books, authored 11 book chapters, and received more than 8,000 citations over his academic career. His research interests include polymeric bio- and nanocomposites, surface modification, conducting polymers, nanofibers, nanoparticles, nano ferrites, hybrid materials, and hydrogels. Dr. Kalia is Series Editor of a book series on polymer and composite materials, and an editorial board member of the International Journal of Plastics Technology. In addition, he is a member of several professional organizations, including the Asian Polymer Association, Indian Cryogenics Council, the Society for Polymer Science, the Indian Society of Analytical Scientists, and the International Association of Advanced Materials.

Affiliations and expertise

Associate Professor and Head, Department of Chemistry, Army Cadet College Wing of Indian Military Academy Dehradun, India

Rohit Jasrotia

Dr. Rohit Jasrotia received his Ph.D. degree in Materials Science (Physics) from the Shoolini University of Biotechnology and Management Sciences (Top-400 THE University Rankings), Solan, Himachal Pradesh, India.

Presently he is working as Research Fellow and Assistant Professor in the INTI International University, Malaysia and Shoolini University of Biotechnology and Management Sciences, Bajhol, Solan, Himachal Pradesh, India since 2018. He has editored two Elsevier books. He has published over 70 research articles in high-quality international peerreviewed journals, granted 6- Indian patents and 13-book chapters. He is active reviewer of more than 30-reputed internal journals and supervising doctoral and master students in research. He has received best researcher award for his achievements in research and development.

Affiliations and expertise

Research Fellow and Assistant Professor at INTI International University, Malaysia

Virender Pratap Singh

Dr. Virender Pratap Singh is a researcher and emerging physicist from the Materials Research Lab, based in the Department of Physics, Sidharath Govt. Degree College Nadaun, supported by the Department of Higher Education, Government of Himachal Pradesh, in India. His research focuses on the synthesis of various ceramic and superfine materials, magnetic nanomaterials, magnetic nanowires systems, and multiferroics systems. Dr. Pratap Singh has also been involved in various research projects looking at ceramic microstructures and hard nanohexaferrites materials. His research has led to 37 publications in international journals and an international Young Scientist award, and he is an active reviewer for more than 5 journals.

Affiliations and expertise

Assistant Professor of Physics, Department of Physics, Netaji Subhash Chander Bose Memorial Government Degree College, Hamirpur, India

Life Sciences

Physical Sciences & Engineering

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Magnetic Nanoferrites and their Composites

Environmental and Biomedical Applications

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Susheel Kalia

Rohit Jasrotia

Virender Pratap Singh

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