Full Description
This book is focused on the applications of various advanced nanohybrids in biomedical sectors to provide solutions for different pressing challenges. Through detailed discussions and case studies, it explores how these advanced nanomaterials can address critical issues and offer new perspectives with practical approaches. It provides a comprehensive exploration of advanced nanohybrids used for inflammatory diseases diagnosis, and in nano-drugs for several cancers, and wound healing applications. It also addresses contemporary trends in biomedical electronics and biosensors, and the use of cutting-edge plasmonic nanomaterials in biomedicine.
Features
Provides comprehensive understanding of the current applications of nanohybrids in biomedical areas.
Presents state-of-the-art technologies and research invested in nanohybrids.
Discusses current hot topics such as semiconductor-based nanohybrids and plasmonic metal-based nanohybrids.
Evaluates the role of nanozymes as anticancer drug agents and as novel antibiotics for anti-microbial resistant microorganisms.
Includes case studies from across the world, especially from regions where high-level research is underway.
Advanced Nanohybrids for Biomedical Applications is an excellent reference for researchers, professionals, graduate and senior undergraduate students in Biomedical Engineering, Biotechnology, and Biomaterials.
Contents
1. Editorial Overview of Nanotechnology in Biomedical Applications. 2. Nanohybrids for Biosensors and Bioelectronics Applications. 3. Nanohybrids for Disease Diagnosis Applications. 4. Nanohybrids for Cancer Therapeutic Applications. 5. Nanohybrids for Inflammatory Disease Therapeutic Applications. 6. Harnessing Multi-Enzymatic Activities of Single-Atom Nanozymes for Advanced Antimicrobial Applications. 7. Smart Biosensors Based on Single-atom Nanozymes for Biomedical Innovations. 8. Carbon Dots and Dendrimer Nanohybrids for Biomedical Applications. 9. Semiconductor Based Nanohybrids for Biomedical Applications. 10. Challenges and Future Direction of Nanotechnology in Biomedical Applications.
