Advances in Sustainable Polymers [E-Book] : Processing and Applications / edited by Vimal Katiyar, Raghvendra Gupta, Tabli Ghosh.
Ghosh, Tabli, (editor)
Gupta, Raghvendra, (editor) / Katiyar, Vimal, (editor)
1st edition 2019.
Singapore : Springer, 2019
XXXI, 483 pages 210 illustrations, 127 illustrations in color (online resource)
englisch
9789813298040
10.1007/978-981-32-9804-0
Materials Horizons: From Nature to Nanomaterials
Full Text
Table of Contents:
  • Part I: Sustainable Polymers for Biomedical Applications
  • Chapter 1- Biomaterials for Biomedical Devices and Implants
  • Chapter 2- Biocompatible Polymer based Nanofibres for Tissue Engineering Application
  • Chapter 3- Biodegradable Polymer based Nanohybrids for Controlled Drug Delivery and Implant Applications
  • Chapter 4- Biobased Nanohydrogels for Controlled Drug Delivery
  • Chapter 5- Resorbable Polymers for Biomedical Applications
  • Chapter 6- Carbohydrate Therapeutics Based on Polymer grafted Nanoparticles
  • Chapter 6-Hydrogels for Wound Healing Applications Facilitated by Herbal Bioactive Agents
  • Chapter 7: Polymeric Nanoparticles for Chemotherapeutic Drug Delivery
  • Part II: Sustainable Polymers for Food Packaging Applications
  • Chapter 8- Polysaccharide Based Films for Food Packaging and other Application
  • Chapter 9- Biopolymer based Polylactic acid for food packaging applications
  • Chapter 10- Bacterial Cellulose based Hydrogel Film for Sustainable Food Packaging
  • Chapter 11- Biodegradable Polymer Based Blown Films for Food Packaging Application
  • Part III: Sustainable Polymers for other emerging application
  • Chapter 12- Advances in Biobased Polymer Membranes for CO2 Separation
  • Chapter 13- Bio-based Polymers in stimuli responsive membranes
  • Chapter 14- Microbial Fuel Cell: A synergistic Flow Approach for Energy Power Generation and Wastewater Treatment
  • Chapter 15- Sustainable Polymer based Microfluidic Fuel Cells for Low Power Applications
  • Chapter 16- Sustainable Polymeric Nanocomposites for Multifaceted Advanced Applications
  • Chapter 17- Bioinspired interfaces for High performance/Advanced application
  • Chapter 18- Biobased Polymeric Conductive Materials for Advanced Applications
  • Chapter 19- Aerobic Composting of Bioplastics.