Magnetic Nanoparticle-Based Hybrid Materials

Fundamentals and Applications

1st Edition - June 23, 2021
Imprint: Woodhead Publishing
Editors: Andrea Ehrmann, Mazaher Ahmadi, Ali Farmani, Phuong Nguyen-Tri, Tuan Anh Nguyen
Language: English
Paperback ISBN:
9 7 8 - 0 - 1 2 - 8 2 3 6 8 8 - 8
eBook ISBN:
9 7 8 - 0 - 1 2 - 8 2 3 6 8 9 - 5

Magnetic Nanoparticle-Based Hybrid Materials: Fundamentals and Applications introduces the principles, properties, and emerging applications of this important materials system. T… Read more

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Magnetic Nanoparticle-Based Hybrid Materials: Fundamentals and Applications introduces the principles, properties, and emerging applications of this important materials system. The hybridization of magnetic nanoparticles with metals, metal oxides and semiconducting nanoparticles may result in superior properties. The book reviews the most relevant hybrid materials, their mechanisms and properties. Then, the book focuses on the rational design, controlled synthesis, advanced characterizations and in-depth understanding of structure-property relationships. The last part addresses the promising applications of hybrid nanomaterials in the real world such as in the environment, energy, medicine fields.

Magnetic Nanoparticle-Based Hybrid Materials: Fundamentals and Applications comprehensively reviews both the theoretical and experimental approaches used to rapidly advance nanomaterials that could result in new technologies that impact day-to-day life and society in key areas such as health and the environment. It is suitable for researchers and practitioners who are materials scientists and engineers, chemists or physicists in academia and R&D.

Cover image
Title page
Table of Contents
Copyright
Dedication
List of contributors
Part I: Basic principles
1. Magnetic nanoparticles: synthesis and characterization
Abstract
1.1 Introduction
1.2 Synthesis of magnetic nanoparticles
1.3 Characterization of magnetic nanoparticles
1.4 Conclusion
References
2. Magnetic nanoparticles: fabrication, characterization, properties, and application for environment sustainability
Abstract
2.1 Introduction
2.2 Applications of nanoparticles
2.3 Magnetic nanoparticles
2.4 Synthesis of magnetic nanoparticles
2.5 Characterization of magnetic nanoparticles
2.6 Magnetic nanoparticle applications
2.7 Application for environmental sustainability
2.8 Conclusion
References
3. Ferrite-gold magnetoplasmonic nanohybrids for bimodal heating by magnetic hyperthermia and photothermia
Abstract
3.1 Introduction
3.2 Magnetic ferrite nanoparticles
3.3 Magnetic properties of ferrite nanoparticles
3.4 Magnetoplasmonic nanohybrids
3.5 Conclusion
References
4. Magnetic polymer hybrid nanomaterials
Abstract
4.1 Introduction
4.2 Stability of magnetic polymer nanoparticles
4.3 Classification of metal-polymer nanoparticles
4.4 Preparation of magnetic polymer nanoparticles
4.5 Magnetic nanoparticles as support for molecularly imprinted polymers
4.6 Applications of magnetic nanoparticle-polymer hybrid materials
4.7 Conclusions
Acknowledgments
References
5. Hybrid Magnetic nanoparticles–Carbonaceous nanomaterials (carbon nanotube/graphene)
Abstract
5.1 Introduction
5.2 Classification of magnetic carbon nanostructures
5.3 Methods of magnetic-graphene preparation
5.4 Therapeutic applications
5.5 Conclusion
References
6. Magnetic nanoparticle-polymer hybrid materials
Abstract
6.1 Introduction
6.2 Metal and metal oxide nanoparticles
6.3 Dilute magnetic semiconductors
6.4 Polymer-based magnetism
6.5 Synthesis of magnetic nanoparticles
6.6 Properties of magnetic nanoparticles
6.7 Applications of magnetic nanoparticles
6.8 Magnetic nanocomposites
6.9 Synthesis of magnetic polymer nanocomposites
6.10 Removal of heavy metals
6.11 Cancer diagnosis and therapy
6.12 Conclusions
References
7. Magnetic nanoparticle-polymer nanohybrids
Abstract
7.1 Introduction
7.2 Preparation, modification, and characterization of magnetic nanoparticle-polymer nanohybrids
7.3 Applications
7.4 Toxicity of magnetic nanoparticles polymers nanohybrids
7.5 Clinical relevance and future prospects
7.6 Conclusion
References
8. Magnetic nanomaterial turbulent flow considering ferrohydrodynamics
Abstract
8.1 Introduction
8.2 Configuration of pipe and modeling
8.3 Result and discussion
8.4 Conclusion
References
9. Magnon-electron interaction in magnetic nanoparticle–based hybrid materials
Abstract
9.1 Introduction
9.2 Electron-magnon interaction in ferromagnetic semiconductors
9.3 The effect of electron-magnon interaction on electronic and magnetic properties
9.4 The effect of electron-magnon interaction on the band structure
9.5 Electron-magnon interaction effect in charge and spin currents
9.6 Conclusion
References
Part II: Biomedical applications
10. Biomedical applications of magnetic hydrogels
Abstract
10.1 Introduction
10.2 Drug delivery applications
10.3 Tissue engineering applications
10.4 Injectable hydrogels
10.5 Biosensors and biomarkers
10.6 Conclusion
Acknowledgments
References
11. Coprecipitation synthesis, stabilization, and characterization of oleic acid-coated iron oxide nanoparticles for magnetically oriented hybrid system vectorization
Abstract
11.1 Introduction
11.2 Approaches to iron oxide nanoparticles synthesis
11.3 Designing iron oxide nanoparticles: an example
11.4 Optimizing iron oxide nanoparticles
11.5 Oleic acid-coated iron oxide nanoparticles: toward magnetically oriented hybrid nanosystems
11.6 Computationally assisted design of hybrid iron oxide nanoparticles
11.7 Conclusions
Acknowledgments
References
12. Magnetic nanoparticles-based hybrid materials for hyperthermia cancer treatments
Abstract
12.1 Introduction
12.2 Hyperthermia and hybrid magnetic nanomaterials
12.3 Conclusions and future perspectives
Acknowledgments
References
13. Magnetic hybrid nanoparticles for drug delivery
Abstract
13.1 Introduction
13.2 Methods for the synthesis of magnetic nanoparticles
13.3 Types of magnetic field
13.4 Advantages of magnetic nanoparticle-based drug delivery systems
13.5 Factors affecting magnetic nanoparticle-based drug delivery
13.6 Application of magnetic hybrid nanoparticles in drug delivery
13.7 Limitations of magnetic nanoparticle–based drug delivery
13.8 Conclusion
References
14. Hybrid magnetic nanoparticles for multimodal molecular imaging of cancer
Abstract
14.1 Introduction
14.2 Cancer biology
14.3 Basic elements of cancer disease useful for nanoparticle applications
14.4 Multimodal molecular imaging in cancer disease
14.5 Magnetic nanoparticles for magnetic resonance imaging
14.6 Hybrid magnetic nanoparticles as magnetic resonance imaging-optical dual-mode imaging agents
14.7 Hybrid magnetic nanoparticles for magnetic resonance imaging-positron emission tomography (MRI-PET), magnetic resonance imaging-single-photon emission computed tomography (MRI-SPECT) or magnetic resonance imaging-computed tomography (MRI-CT) dual-mode imaging agents
14.8 Magnetic nanoparticle–based nontraditional multimodal imaging
14.9 General remarks and future perspectives
Acknowledgments
References
15. Magnetic nanoparticle-based hybrid materials in the biomedical field: fundamentals and applications
Abstract
15.1 Brief history of magnetic materials and their nanohybrids
15.2 Synthesis and functionalization/hybridization
15.3 Magnetic nanocomposites for imaging and diagnostic application
15.4 Magnetic nanohybrids for biosensing application
15.5 Therapeutics based on magnetic nanohybrids
15.6 Summary and perspectives
References
16. Magnetic nanoparticles in cancer therapy
Abstract
16.1 Introduction
16.2 Physical properties of MNPs
16.3 Synthesis, surface decoration, and functionalization of MNPs
16.4 MNPs in cancer diagnosis
16.5 MNPs in cancer treatment
16.6 Theranostic MNPs
16.7 Mathematical modeling
16.8 Conclusion
References
17. Medical applications of multifunctional magnetic nanoparticles
Abstract
17.1 Introduction
17.2 A glance at magnetic nanoparticle synthesis and modification
17.3 Basic and clinical applications of magnetic nanoparticles
17.4 Conclusion
Conflict of interests
References
18. Biomedical applications of magnetic nanoparticles
Abstract
18.1 Introduction
18.2 Magnetic nanoparticles
18.3 Biomedical applications
18.4 Conclusion and outlook
Acknowledgments
References
Part III: Environmental applications
19. Antimicrobial activity of hybrid organic–inorganic core–shell magnetic nanocomposites
Abstract
19.1 Introduction
19.2 Inorganic core
19.3 Surface functionalization
19.4 Conclusion
References
20. Environmental applications of magnetic nanoparticles
Abstract
20.1 Introduction
20.2 Removal of contaminants using magnetic nanoparticles
20.3 Toxic effects of magnetic nanoparticles on the environment
20.4 Conclusions
References
21. Magnetic nanoparticles in wastewater treatment
Abstract
21.1 Introduction
21.2 Different types of MNPs
21.3 Synthesis of MNPs
21.4 Magnetic nanoadsorbents in wastewater treatment
21.5 Magnetic nanophotocatalysts for removal of pollutants from wastewater
21.6 The use of MNPs in filtration process
21.7 The demulsification of oil wastewaters using MNPs
21.8 Magnetic flocculation technology
21.9 Recent developments
21.10 Major challenges and future prospects
References
22. Magnetic hybrid nanoparticles for environmental remediation
Abstract
22.1 Introduction
22.2 Application in the removal of heavy metal ions
22.3 Application in the removal of organic contaminants and dyes
22.4 Application in the remediation of oil spills
22.5 Application in environmental sensing
22.6 Application as photocatalysts
22.7 Application in water splitting for generation of environmentally friendly hydrogen
22.8 Other environmental applications of magnetic nanoparticles
22.9 Conclusion
Acknowledgments
References
Part IV: Applications for sensor, catalysis and analytical processes
23. Magnetic hybrid nanocatalysts
Abstract
23.1 Introduction to the magnetic nanocatalysts
23.2 Classification of the magnetic nanocatalysts
23.3 Effects of the structure, size, and morphology on the catalytic performance
23.4 Synergies in the catalytic applications
23.5 Biodegradability and biocompatibility
23.6 Organic catalysis by magnetic nanocomposites
23.7 Turnover number and turnover frequency
23.8 Recyclability
23.9 Conclusion and future perspective
References
24. Magnetic hybrid nanoparticles for improvements in analytical processes
Abstract
24.1 Introduction
24.2 Improvements in sample preparation
24.3 Improvements in analyte separation
24.4 Improvements in analyte detection
24.5 Conclusions and perspectives
References
25. Hybrid magnetic nanoparticles for electrochemical biosensors
Abstract
25.1 Introduction
25.2 Hybrid magnetic nanoparticles
25.3 Methods for the synthesis of hybrid magnetic nanoparticles for electrochemical biosensing
25.4 Applications of hybrid magnetic nanoparticles for electrochemical biosensors
25.5 Conclusions and outlook
Acknowledgments
Abbreviations and acronyms
References
Index

Andrea Ehrmann

Dr. Andrea Ehrmann is a full professor for measurement, physics, and textile technologies at Bielefeld University of Applied Sciences in Germany. After studying physics at RWTH Aachen, she earned a PhD in the area of magneto-optical investigations on exchange-bias systems. Afterwards, Dr. Ehrmann worked at Niederrhein University of Applied Sciences on Intelligent Textiles, knitted fabrics etc.

Affiliations and expertise

Professor for Measurement, Physics, and Textile Technologies, Bielefeld University of Applied Sciences, Germany

Mazaher Ahmadi

Dr. Mazaher Ahmadi received his Ph.D. in Analytical Chemistry from Bu-Ali Sina University in 2017. He has been to Alicante University, Spain, and Stockholm University, Sweden, as a visiting researcher in 2015-2016 and 2016-2017, respectively. He became an Assistant Professor of Analytical Chemistry at Bu-Ali Sina University in 2019. His professional experiences also include two post-doctorate research courses at Shiraz University of Medical Science, Iran, and Bu-Ali Sina University, Iran, in 2017-2018 and 2018-2019, respectively. Dr. Ahmadi is an expert in nanotechnology, analytical method development, pollutant removal, and wastewater treatment. He has edited six Elsevier books. He also has contributed eleven book chapters with Elsevier.

Affiliations and expertise

Assistant Professor, Bu-Ali Sina University, Hamedan, Islamic Republic of Iran

Ali Farmani

Dr. Ali Farmani is an Assistant Professor in the Department of Electrical Engineering at Lorestan University in Khorramabad, Iran. His research focuses on optical nanostructured materials.

Affiliations and expertise

Assistant Professor, School of Electrical Engineering, Lorestan University, Khoramabad, Iran

Phuong Nguyen-Tri

DEA (ENSCMul, France) and PhD (Cnam of Paris, France 2009). He worked as an assistant professor at Cnam of Paris (2009-2011) and researcher at ETS, Montreal, Canada (2011-2015) before joining to University of Montreal as research officer (Prud'homme's Group). His main research interests are polymer blends, crystallization of ultra thin films, nanostructuration, agrocomposites, polymer ageing, personal protective materials, rupture mechanisms of polymer material

Affiliations and expertise

Department of Chemistry, University of Montreal, Montreal, Canada

Tuan Anh Nguyen

Tuan Anh Nguyen is a Senior Principal Research Scientist at the Institute for Tropical Technology, Vietnam Academy of Science and Technology, Hanoi, Vietnam. He received a BS in physics from Hanoi University in 1992, a BS in economics from Hanoi National Economics University in 1997, and a PhD in chemistry from the Paris Diderot University, France, in 2003. He was a Visiting Scientist at Seoul National University, South Korea, in 2004, and the University of Wollongong, Australia, in 2005. He then worked as a Postdoctoral Research Associate and Research Scientist at Montana State University, United States in 2006-09. In 2012 he was appointed as the Head of the Microanalysis Department at the Institute for Tropical Technology. His research areas of interest include smart sensors, smart networks, smart hospitals, smart cities, complexiverse, and digital twins. He has edited more than 74 books for Elsevier, 12 books for CRC Press, 1 book for Springer, 1 book for RSC, and 2 books for IGI Global. He is the Editor-in-Chief of Kenkyu Journal of Nanotechnology & Nanoscience.

Affiliations and expertise

Senior Principal Research Scientist, Institute for Tropical Technology, Vietnam Academy of Science and Technology, Hanoi, Vietnam

Life Sciences

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Magnetic Nanoparticle-Based Hybrid Materials

Fundamentals and Applications

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Andrea Ehrmann

Mazaher Ahmadi

Ali Farmani

Phuong Nguyen-Tri

Tuan Anh Nguyen

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