Biobased materials : recent developments and industrial applications / / Ajay Kumar Mishra and Chaudhery Mustansar Hussain, editors
(Visualizza in formato marc)
(Visualizza in BIBFRAME)
| Titolo: |
Biobased materials : recent developments and industrial applications / / Ajay Kumar Mishra and Chaudhery Mustansar Hussain, editors
|
| Pubblicazione: | Singapore : , : Springer, , [2023] |
| ©2023 | |
| Descrizione fisica: | 1 online resource (307 pages) |
| Disciplina: | 610.28 |
| Soggetto topico: | Biomedical materials |
| Green chemistry | |
| Biomedical materials - Research | |
| Persona (resp. second.): | MishraAjay Kumar |
| HussainChaudhery Mustansar | |
| Nota di bibliografia: | Includes bibliographical references. |
| Nota di contenuto: | Intro -- Preface -- Contents -- Biobased Material for Food Packaging -- 1 Introduction -- 2 Polysaccharide-Based Material -- 2.1 Cellulose and Hemicellulose -- 2.2 Starch -- 2.3 Lignin -- 2.4 Chitosan/Chitin -- 3 Protein-Based Material -- 3.1 Plant Sources -- 3.2 Animal Sources -- 4 Lipid-Based Material -- 5 Microbial-Based Material -- 5.1 Polyhydroxyalkanoates (PHA) -- 5.2 Polylactic Acid (PLA) -- 5.3 Exopolysaccharides (EPS) -- 6 Application of the Biobased Material in Food Packaging -- 7 Conclusion and Future Prospects -- References -- Cytotoxicity and Biocompatibility of Biobased Materials -- 1 Introduction -- 2 Biomaterials -- 3 Characteristics of Biomaterials -- 4 Types of Biomaterials -- 5 Bone Cement and Lenses -- 6 Artificial Ligaments and Tendons -- 7 Breast Implantation -- 8 Drug Delivery with Polymeric Systems -- 9 Surgical Sutures, Clips, and Staples to Close the Wound -- 10 Nerve Regeneration -- 11 Biomaterials and Skin -- 12 Vascular Grafting -- 13 Prosthetic Meshes -- 14 Evolving Fast: Third Generation Biomaterials -- 15 Conclusion -- References -- Carbon Nanostructures, Nanomaterials and Energy Storage-A Critical Overview and the Visionary Future -- 1 Introduction -- 2 The Aim and Objective of This Study -- 3 Industrialization, Urbanization and Application of Nanotechnology and Nano-engineering -- 4 What Do You Mean by Nanomaterials and Engineered Nanomaterials? -- 5 The Scientific Doctrine of Industrial Wastewater Management and Integrated Water Resource Management -- 6 Recent Scientific Advances in the Field of Carbon Nanotubes, Carbon Nanostructures and Energy Engineering -- 7 Recent Scientific Advances in the Field of Industrial Wastewater Management and Water Purification and Separation -- 8 Recent Scientific Pursuit in Nanomaterials and Water Remediation Science. |
| 9 Industrialization, Nanomaterials and the Visionary Road Ahead -- 10 The Challenges and Difficulties of Arsenic and Heavy Metal Groundwater Remediation -- 11 The Health Effects and Environmental Ethics of Nanomaterials Applications -- 12 Renewable Energy in the Global Scenario and Future of Human Civilization -- 13 Sustainable Development, Sustainable Engineering and the Visionary Road Ahead -- 14 Nanostructures, Nano-engineering and the Scientific Sagacity of Human Progress -- 15 Future Flow of Scientific Thoughts and Futuristic Recommendations of This Comprehensive Study -- 16 Conclusion and Future Environmental Engineering Perspectives -- References -- Bio-based Materials in Bioelectronics -- 1 Introduction to Bio-based Material and Bioelectronics -- 2 The Interface of Bio-based Materials in Bioelectronics -- 3 Classification of Bio-based Materials -- 3.1 Bio-based Polymer: Synthesis and Application in Bioelectronics -- 3.2 Applications of Synthetic Bio-based Polymer in Bioelectronics -- 3.3 Naturally Extracted Bio-based Polymer Used in Bioelectronics -- 3.4 Bio-based Ceramics -- 4 Classification Of Bioelectronics -- 4.1 Bioelectromagnetics -- 4.2 Bioi Instrumentation -- 4.3 Biomechatronics -- 4.4 Robotics -- 4.5 Neural Network -- 4.6 Biosensor -- 5 Challenges and Limitations for Bio-based Materials in Bioelectronics -- 6 Future of Use of Bio-based Materials in Bioelectronics -- References -- Biobased Materials and the Vast Domain of Environmental Pollution Control-A Critical Overview -- 1 Introduction -- 2 The Aim and Objective of This Study -- 3 The Need and Rationale of This Study -- 4 Climate Change, Global Warming, and Sustainability -- 5 Environmental Sustainability and the Visionary Future -- 6 Recent Scientific Advancements in the Field of Biobased Materials and Their Applications. | |
| 7 Recent and Significant Advances in the Field of Bionanocomposites -- 8 Global Water Science and Technology Research and Sustainable Resource Management -- 9 The Status of the Global Scenario in Biotechnology -- 10 Arsenic and Heavy Metal Contamination and Subsequent Environmental Remediation -- 11 Global Scientific Strategies in the Field of Application of Biobased Materials -- 12 Sustainable Resource Management, Integrated Water Resource Management, and the Progress of Human Society -- 13 Biobased Materials, Water Science and Technology, and the Road to Scientific Wisdom -- 14 Future Scientific Recommendations of This Study and the Visionary Future -- 15 Future in the Applications of Different Techniques in Biofuels -- 16 Conclusion, Summary, and Environmental Perspectives -- References -- Recent Trends in Eco-Friendly Materials for Agrochemical Pollutants Removal: Polysaccharide-Based Nanocomposite Materials -- 1 Introduction -- 2 Agrochemicals -- 2.1 Origin and Classification -- 2.2 Pesticides -- 2.3 Fertilizers -- 2.4 Environmental Implications, Remediation Treatments, and Regulations -- 3 Nanocomposite Materials Based on Single Polysaccharides -- 4 Nanocomposite Materials Based on Polysaccharide Blends -- 5 Conclusions and Future Perspectives -- References -- Protein-Based Biomaterials for Sustainable Remediation of Aquatic Environments -- 1 Introduction -- 2 Collagen -- 2.1 Structure -- 2.2 Sources -- 2.3 Collagen Superfamily -- 2.4 Biosynthesis Overview -- 2.5 Biomaterial from Collagen and Their Applications -- 3 Keratin -- 3.1 Sources of Keratin -- 3.2 Structure of Keratin -- 3.3 Biomaterial of Keratin and Its Application -- 4 Elastin -- 4.1 Source and Isolation -- 4.2 Biochemistry of Elastin -- 4.3 Application of Elastin-Based Biomaterials -- 5 Silk -- 5.1 Source and Isolation -- 5.2 Characterization -- 5.3 Biochemistry of Silk. | |
| 5.4 Applications on Silk-Based Biomaterials -- 6 Conclusions -- References -- Green Sustainability and Arsenic Groundwater Remediation in Developing countries-A Far-Reaching Review -- 1 Introduction -- 2 The Vision of the Study -- 3 The Need and the Rationale of This Study -- 4 Green Sustainability and the Vast Vision for the Future -- 5 Arsenic and Heavy Metal Groundwater Remediation in South Asia and Other Developing Countries -- 6 Various Arsenic Remediation Technologies in the Global Scenario -- 7 Recent Scientific Advancements in the Field of Green or Environmental Sustainability -- 8 Recent Scientific Advances in the Field of Arsenic Groundwater Remediation -- 9 Arsenic Groundwater Remediation, the March of Science and the Visionary Future -- 10 The Scientific Sagacity and Scientific Ingenuity of Heavy Metal and Arsenic Groundwater Remediation and the March of Engineering Science -- 11 Future Scientific Recommendations of This Study, Future Flow of Scientific Thoughts and the Vision Behind it -- 12 Conclusion, Summary and Scientific Perspectives -- References -- Bio-Based Materials Used in Food Packaging to Increase the Shelf Life of Food Products -- 1 Introduction -- 2 Shelf Life and Its Determination -- 2.1 Common Methods of Increasing the Shelf Life Extension -- 2.2 Limiting Attributes and the End of the Shelf Life -- 3 Bio-Based Materials in Food Packaging and Their Composites -- 3.1 Bio-Based Polymers -- 3.2 Bio-Based Nanomaterials -- 3.3 Bio-Based Fibres -- 3.4 Other Natural Fibres and Their Composites -- 4 Smart Nanopackaging for the Enhancement of Food Shelf Life -- 4.1 Diversity in Nanopackaging Materials -- 4.2 Nano Antimicrobials for Extending Shelf Life of Food -- 5 Future Scope -- 6 Conclusion -- References -- Bio Polymers and Sensors Used in Food Packaging-Present and Future Prospects -- 1 Introduction. | |
| 2 Biopolymers in Food Packaging -- 2.1 Food Packaging Materials Based on Biopolymers -- 3 Present Status of Active and Functional Food Packaging -- 4 Contribution of Nanotechnology to the Monitoring of Food Security -- 4.1 Nanosensors -- 4.2 Biosensors in Food Analysis -- 5 Future Trends -- 6 Conclusion -- References -- Biofunctional Textiles: Functional Polymer-Carriers with Antiviral, Antibacterial, Antifungal, and Repellent Activity -- 1 Introduction -- 2 Essential Oils (EOs) -- 2.1 Extraction Methods -- 2.2 Taxonomy of Essential Oil -- 2.3 Chemical Composition -- 2.4 Biological Activities of Eos -- 3 Components of Capsules (Encapsulated EOs) -- 3.1 Oil Encapsulation Benefits -- 3.2 Techniques and Processes Used to Encapsulate Essential Oils -- 3.3 Physicochemical Characterization of Encapsulated EOs -- 3.4 Release Characteristics of Encapsulated EOs -- 4 Functional Textile -- 4.1 Finishing Treatments -- 4.2 Physicochemical Characterization of the Microcapsule-Treated Fabrics -- 4.3 Examples of Antimicrobial and Repellent Textiles -- 5 Conclusions and Final Remarks -- References -- Low-Cost and Sustainable Treatment Options for Removal of Cd (II) from Drinking Water Using Indigenous Materials for Rural Communities -- 1 Introduction -- 2 Materials and Methods -- 2.1 Preparation of Moringa Oleifera Biosorbent -- 2.2 Batch Biosorption Studies -- 2.3 Thermodynamic Studies -- 2.4 Equilibrium Isotherms -- 2.5 Biosorption Kinetic Models -- 3 Results and Discussion -- 3.1 Biosorbent characterization -- 3.2 Batch studies -- 3.3 Equilibrium Isotherms for Biosorption of Cd (II) Using Moringa Oleifera -- 3.4 Biosorption Kinetic Models for Biosorption of Cd (II) Using Moringa Oleifera -- 3.5 Thermodynamics Study for Biosorption of Cd (II) Using Moringa Oleifera -- 4 Conclusions -- References. | |
| Green Synthesis of Zinc Oxide Nanoparticles Using Citrus Sinensis (Orange) Peel Extract for Achieving Ultraviolet Blocking Properties. | |
| Titolo autorizzato: | Biobased materials |
| ISBN: | 981-19-6024-0 |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910627276503321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |