Smart Systems in Biotechnology
Coordonnateur : Gupta Munishwar Nath
This compact volume is focused on an eclectic mix of biotechnological and biomedical applications of stimuli-sensitive polymeric materials. It starts with their chemical synthesis and design strategies. This is followed by discussions of their applications in microfluidics, biosensors, wound healing and anticancer therapy.
Two other interesting applications covered are the design of aptamer-based smart surfaces for biological applications and use of smart hydrogels in tissue engineering.
In general, it provides a snapshot of the current state-of-the-art in design and applications of smart systems at the interfaces of biological sciences.
Preface. Thermoresponsive “Smart” Polymer Systems for Drug Delivery, Gene Therapy and Tissue Engineering. Engineering Smart Nanomaterials. Exploiting Smart Hydrogels in Biotechnological Applications of Microfluidics. Electrochemical Biosensors Based Upon Stimuli-Sensitive Gels. Aptamer-based Stimuli-Responsive Surfaces. Smart Polymers: Advances and Applications in Wound Healing. pH-Responsive Polymer Prodrug Micelles for Anti-cancer Therapy. Smart Hydrogels for Tissue Engineering of Hard and Soft Tissues in the Oral Cavity. Index.
Munishwar Nath Gupta taught chemistry, biochemistry and biotechnology at IIT Delhi (1975–2018). A PhD in Biochemistry from IISc Bangalore was followed up by post-docs at University of Minnesota, USA; MIT, USA; UTC, France; and Lund University, Sweden. He is a fellow of both the National Academy of Sciences, Allahabad and INSA, New Delhi. He is currently Series Editor of Foundations and Frontiers in Enzymology (Elsevier). He has published over 300 scientific articles and his current h-index is 63.
Date de parution : 07-2024
15.6x23.4 cm
Thèmes de Smart Systems in Biotechnology :
Mots-clés :
Stimuli-sensitive polymers; Environment-sensitive polymers; Smart nanoparticles; Stimuli-responsive drug-release systems; Stimuli-responsive surfaces; Thermosensitive polymers; Smart monoliths; Smart hydrogels; Aptamers; pH-responsive polymers; Polymerosomes; Microfluidics; Tissue engineering; Electrochemical sensors