This book explores the potential of hydrogels as a multi-utility system and their benefits (biocompatibility, degradability, and supporting scaffolds) for wide range of applications in diagnostics and therapeutics. It also discusses the future prospects and challenges in transition from hydrogels to nanogels.
This book explores the potential of hydrogels as a multi-utility system and their benefits (biocompatibility, degradability, and supporting scaffolds) for wide range of applications in diagnostics and therapeutics. It also discusses the future prospects and challenges in transition from hydrogels to nanogels.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Dr. Anujit Ghosal currently works at the School of Biotechnology, Jawaharlal Nehru University. Dr Anujit does research in Biochemistry, Polymer Chemistry and Nanotechnology. His current project is synthesis of renewable hydrogels for biomedical applications. Dr. Ajeet Kaushik received his Ph.D. (chemistry, biosensors; 2010) in collaboration with the National Physical Laboratory and Jamia Milia Islamia, New Delhi, India. Presently, Dr. Kaushik, as an Assistant Professor of Chemistry, is exploring advanced electrochemical sensing systems and nanomedicine for personalized health wellness" at Department of Natural Sciences of Division of Sciences, Art, & Mathematics at Florida Polytechnic University, Lakeland USA. He is the recipient of various reputed awards for his service in the area of nano-biotechnology for health care. His excellent research credentials reflect by his four edited books, 100 international research peer reviewed publications, and three patents in the area of nanomedicine and smart biosensors for personalized health care. In the course of his research, Dr. Kaushik has been engaged in design and development of various electro-active nanostructures for electrochemical biosensor and nano-medicine for health care. His research interests include nano-bio-technology, analytical systems, design & develop nanostructures, nano-carries for drug delivery, nano-therapeutics for CNS diseases, on-demand site-specific release of therapeutic agents, exploring personalized nano-medicines, biosensors, point-of-care sensing devices, and related areas of health care monitoring.
Inhaltsangabe
1. Hydrogels and their fundamentals. 2. Role of Nano-biotechnology in hydrogels and their medicinal advancements. 3. Conducting polymer-based hydrogels and scaffolds. 4. Smart hydrogels and their responsiveness. 5. Hydrogel for sensing application. 6. Biomedical application of hydrogel and their importance. 7. Hydrogels and their imaging application. 8. Hydrogels in tissue engineering. 9. Antibacterial Hydrogels and Their Implications. 10. Challenges and future prospects associated with smart hydrogels for drug delivery and imaging.
1. Hydrogels and their fundamentals. 2. Role of Nano-biotechnology in hydrogels and their medicinal advancements. 3. Conducting polymer-based hydrogels and scaffolds. 4. Smart hydrogels and their responsiveness. 5. Hydrogel for sensing application. 6. Biomedical application of hydrogel and their importance. 7. Hydrogels and their imaging application. 8. Hydrogels in tissue engineering. 9. Antibacterial Hydrogels and Their Implications. 10. Challenges and future prospects associated with smart hydrogels for drug delivery and imaging.
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