Foundation and Growth of Macromolecular Science
Advances in Research for Sustainable Development
- 380 pages
- English
- ePUB (mobile friendly)
- Available on iOS & Android
Foundation and Growth of Macromolecular Science
Advances in Research for Sustainable Development
About This Book
This new volume explores the foundation of macromolecular science along with the field's current challenges and solutions to challenges. The book discusses many new applications that have emerged recently based on different polymers and their composites, inlcuding some on the application of polymer composite in electromagnetic interference (EMI) shielding, sensing, and wound healing. This book discusses innovations in the synthesis and characterization of many different classes of polymers and provides in-depth explanations of the behavior of polymers in solutions and in bulk. It considers the synthesis, characterization properties, and applications of many polymer composites and nanomaterials.
The diverse topics cover zein-based composites, nanocellulose extracted as a potential filler for polymers, polymers to strengthen concrete, polymer/metal nanocomposite magnetic materials, synthetic polymers in aquatic environments, pharmaceutical 3D-printing, alginate-based wound healing dressings, and more.
Many chapters in the volume place emphasis on sustainable development and green eco-friendly approaches.
This volume will help researchers to understand the significance of macromolecular science and research advances for sustainable development for the benefit of humanity. It emphasizes the many roles of macromolecular science in the important fields of science, such as chemistry, physics, engineering, biology, pharmaceutical science, and more.
Frequently asked questions
Information
Table of contents
- Cover Page
- Half Title page
- Title Page
- Copyright Page
- About the Editors
- Contents
- Contributors
- Abbreviations
- Symbols
- Preface
- 1. Introduction – Foundation and Growth of Macromolecular Science: Advances in Research for Sustainable Development
- 2. Synthesis and Characterization of Chitosan–Starch and Glutaric Acid Films
- 3. Bio-Based Polymer Science: From Past to Future in a Biodegradability and Eco-Friendly Context
- 4. Zein-Based Composites: Synthesis, Characterization Properties, and Applications
- 5. Nanocellulose Extracted from Nutshells as a Potential Filler for Polymers: A Green Approach
- 6. Synthesis and Characterization of Polymer/Metal Nanocomposite Magnetic Material
- 7. Polymeric Materials to Improve Durability and Sustainability of Cement Concrete: A Brief Overview
- 8. Protein–Polyelectrolyte Complexes: Structure and Properties
- 9. Ontroduction to DNA Nanomechanics: Theory and Simulations
- 10. The Ultrasonic-Assisted Synthesis of Locust Gum/Peg-Silver Nanoparticles and Its Mathematical Modeling of Rheological Parameters
- 11. Macromolecular-Enzyme-Triggered Electrochemical Biosensing
- 12. Supramolecular Gel-Based Materials for Sensing Environmentally Sensitive Molecules
- 13. Dielectric and AC Conductivity Studies of Ag: CdZnTe–PVA Films
- 14. Electric Circuit Modeling of Impedance Spectroscopic Characteristics of GFRP Nanocomposites with Hybrid Carbon Nanofillers
- 15. The Role of Synthetic Polymers in the Aquatic Environment and Its Implications in Danio Rerio as a Model Organism
- 16. Alginate-Based Wound-Healing Dressings
- 17. Pharmaceutical 3D Printing: Insights into Polymeric Armamentarium and Saga of Product Fabrication
- Index