Functionalized Magnetic Nanohybrids
Synthetic Approaches, Biomedical and Environmental Applications
Published on 3. April 2025
540 pages
978-0-443-22249-8 (ISBN)
Description
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
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Additional editions
Komal Rizwan | Abdulhadi Baykal
Functionalized Magnetic Nanohybrids
Synthetic Approaches, Biomedical and Environmental Applications
Book
06/2025
Elsevier
€246.50
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Content
Part I: FUNDAMENTALS1. Introduction to Magnetic Nanohybrids2. Synthesis and structural design of Magnetic nanohybrids3. Functionalization and nanoscale characterization of Magnetic Nanohybrids4. Molecular dynamic simulation and computational studies of magnetic nanohybridsPart II: MAGNETIC NANOHYBRIDS IN BIOMEDICAL APPLICATION5. Recent developments in Magnetic nanohybrids for treatment of chronic diseases6. Latest trends in Magnetic nanohybrids in medicines and drug delivery applications7. Applications of Magnetic nanohybrids for magnetic resonance imaging and nano-bioimaging8. Diagnostic applications of Magnetic nanohybrids9. Magnetic Nanohybrids for microbial theranostics10. Approaches of Magnetic Nanohybrids in Tissue engineering and gene therapyPart III: MAGNETIC NANOHYBRIDS IN ENVIRONMENTAL APPLICATIONS11. Potential of Magnetic Nanohybrids for remediation of microbial contaminants12. Efficacy of Magnetic Nanohybrids in Removal of gases from atmosphere13. Magnetic Nanohybrids for removal of coloured dye and heavy metal based pollutants14. Advanced approach of Magnetic nanohybrids in Removal of pharmaceutical based pollutants15. Mitigation of pesticide based pollutants by applications of Magnetic nanohybrids16. Magnetic Nanohybrids based sensors for detection of soil and air pollutants17. Magnetic Nanohybrids based sensing systems for detection of wastewater pollutants18. Magnetic Nanohybrids based sensors for detection of Protein, vitamin and virusPart IV: CHALLENGES, STABILITY AND FUTURE PERSPECTIVES19. Way forward towards better developments in Magnetic nanohybrids20. Toxicology, stability and reusability of Magnetic Nanohybrids21. Challenges, limitations and future prospective of Magnetic Nanohybrids
