Functionalized Magnetic Nanohybrids
Synthetic Approaches, Biomedical and Environmental Applications
- 1st Edition - June 9, 2025
- Editors: Komal Rizwan, Abdulhadi Baykal
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 2 2 2 4 8 - 1
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 2 2 2 4 9 - 8
Functionalized Magnetic Nanohybrids: Synthetic Approaches, Biomedical and Environmental Applications provides a comprehensive overview of the basic principles, fabrication, self-a… Read more
Functionalized Magnetic Nanohybrids: Synthetic Approaches, Biomedical and Environmental Applications provides a comprehensive overview of the basic principles, fabrication, self-assembling strategies, and potential applications of magnetic nanohybrids in the fields of biomedicine, sensors, and environmental remediation. Sections cover an introduction to the synthesis methods, functionalization, and characterization of magnetic nanohybrids, focus on the potential applications of these nanostructured materials in the biomedical field and for the removal of environmental pollutants, and cover challenges associated with fabrication techniques, and in the application of magnetic nanohybrids.
- Examines the unique chemical and physical features of magnetic hybrid nanostructured materials
- Describes major potential applications in the fields of environmental science and biomedicine
- Discusses future trends and perspectives in the area of magnetic nanohybrids
Materials scientists and advanced students with an interest in functionalized nanomaterials and innovative nanomaterials, Researchers and R&D professionals working in the field of nanotechnology, biomedical and environmental chemistry
Part I: FUNDAMENTALS
1. Introduction to Magnetic Nanohybrids
2. Synthesis and structural design of Magnetic nanohybrids
3. Functionalization and nanoscale characterization of Magnetic Nanohybrids
4. Molecular dynamic simulation and computational studies of magnetic nanohybrids
Part II: MAGNETIC NANOHYBRIDS IN BIOMEDICAL APPLICATION
5. Recent developments in Magnetic nanohybrids for treatment of chronic diseases
6. Latest trends in Magnetic nanohybrids in medicines and drug delivery applications
7. Applications of Magnetic nanohybrids for magnetic resonance imaging and nano-bioimaging
8. Diagnostic applications of Magnetic nanohybrids
9. Magnetic Nanohybrids for microbial theranostics
10. Approaches of Magnetic Nanohybrids in Tissue engineering and gene therapy
Part III: MAGNETIC NANOHYBRIDS IN ENVIRONMENTAL APPLICATIONS
11. Potential of Magnetic Nanohybrids for remediation of microbial contaminants
12. Efficacy of Magnetic Nanohybrids in Removal of gases from atmosphere
13. Magnetic Nanohybrids for removal of coloured dye and heavy metal based pollutants
14. Advanced approach of Magnetic nanohybrids in Removal of pharmaceutical based pollutants
15. Mitigation of pesticide based pollutants by applications of Magnetic nanohybrids
16. Magnetic Nanohybrids based sensors for detection of soil and air pollutants
17. Magnetic Nanohybrids based sensing systems for detection of wastewater pollutants
18. Magnetic Nanohybrids based sensors for detection of Protein, vitamin and virus
Part IV: CHALLENGES, STABILITY AND FUTURE PERSPECTIVES
19. Way forward towards better developments in Magnetic nanohybrids
20. Toxicology, stability and reusability of Magnetic Nanohybrids
21. Challenges, limitations and future prospective of Magnetic Nanohybrids
1. Introduction to Magnetic Nanohybrids
2. Synthesis and structural design of Magnetic nanohybrids
3. Functionalization and nanoscale characterization of Magnetic Nanohybrids
4. Molecular dynamic simulation and computational studies of magnetic nanohybrids
Part II: MAGNETIC NANOHYBRIDS IN BIOMEDICAL APPLICATION
5. Recent developments in Magnetic nanohybrids for treatment of chronic diseases
6. Latest trends in Magnetic nanohybrids in medicines and drug delivery applications
7. Applications of Magnetic nanohybrids for magnetic resonance imaging and nano-bioimaging
8. Diagnostic applications of Magnetic nanohybrids
9. Magnetic Nanohybrids for microbial theranostics
10. Approaches of Magnetic Nanohybrids in Tissue engineering and gene therapy
Part III: MAGNETIC NANOHYBRIDS IN ENVIRONMENTAL APPLICATIONS
11. Potential of Magnetic Nanohybrids for remediation of microbial contaminants
12. Efficacy of Magnetic Nanohybrids in Removal of gases from atmosphere
13. Magnetic Nanohybrids for removal of coloured dye and heavy metal based pollutants
14. Advanced approach of Magnetic nanohybrids in Removal of pharmaceutical based pollutants
15. Mitigation of pesticide based pollutants by applications of Magnetic nanohybrids
16. Magnetic Nanohybrids based sensors for detection of soil and air pollutants
17. Magnetic Nanohybrids based sensing systems for detection of wastewater pollutants
18. Magnetic Nanohybrids based sensors for detection of Protein, vitamin and virus
Part IV: CHALLENGES, STABILITY AND FUTURE PERSPECTIVES
19. Way forward towards better developments in Magnetic nanohybrids
20. Toxicology, stability and reusability of Magnetic Nanohybrids
21. Challenges, limitations and future prospective of Magnetic Nanohybrids
- Edition: 1
- Published: June 9, 2025
- Language: English
KR
Komal Rizwan
She earned a Ph.D. in chemistry from Government College University Faisalabad Pakistan in 2016 and carried out research work at the University of Pennsylvania, Philadelphia, Pennsylvania, United States. She is interested in synthesizing molecules that possess interesting functions, including biological activity (natural products, drugs, drug-like compounds etc.) or materials with useful properties. She develops tools to perform efficient synthetic transformations in creating novel molecular architectures of medicinal or industrial relevance. In a nutshell, my interests are broadly in synthetic organic chemistry, with a particular focus on the synthesis of bioactive natural products and novel molecular architectures (nanomaterials). She worked on organic synthesis focused on catalysis, visible light photoredox couplings, transition metal-catalyzed -couplings, and click chemistry. Synthesis of nanomaterials and their applications to control environmental pollution is also her area of interest.
Affiliations and expertise
Assistant Professor, Department of Chemistry, University of Sahiwal, Sahiwal, PakistanAB
Abdulhadi Baykal
Abdulhadi Baykal (Ph.D) is Professor and chairman of the Food Engineering Department at Engineering Faculty of Istanbul Aydin University, Istanbul, Turkey. He received his BSc. degree in 1991 (Chemistry Education of Middle East Technical University, Ankara-Turkey). He completed his MSc degree and Ph.D (both in Chemistry) in 1995 and in 1999 respectively. He became Assistant Professor in 2002, Associate Professor in 2009 and Professor in 2014 (Fatih University, Istanbul). He has more than 26 years of teaching and research experience in Chemistry, Nanotechnology, Analytical Chemistry, Magnetic Nanomaterials, Instrumental Analysis, Inorganic Chemistry, Nanomedicine, Cancer Therapy, etc. His major research is the synthesis, characterization, and application (plant uptake, microwave absorber, recyclable nano catalyst, cancer treatment) of magnetic nanomaterials. He has published more than 440 papers in science indexed journals. He supervised 33 master and 4 Ph.D theses.
Affiliations and expertise
Food Engineering Department, Basic Pharmacy Department, Pharmacy Faculty, Istanbul Aydin University, Istanbul, TürkiyeRead Functionalized Magnetic Nanohybrids on ScienceDirect