Advanced applications of biobased materials : food, biomedical, and environmental applications /
Advanced Applications of Biobased Materials: Food, Biomedical, and Environmental Applications brings together cutting-edge developments in the preparation and application of biobased materials. This book begins by providing an overview of biobased materials, their classification, and their physical...
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| Other Authors: | , |
| Format: | eBook |
| Language: | English |
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Amsterdam, Netherlands :
Elsevier,
[2023]
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| Online Access: | Connect to the full text of this electronic book |
Table of Contents:
- <P><b>SECTION 1
- Fundamentals, classification, and modification of biobased materials</b></p> <p>1. Biopolymers: An overview</p> <p>2. Chemical modification of protein-based biopolymers for application in food packaging</p> <p><b>SECTION 2
- Fabrication and characterization of biobased materials</b></p> <p>3. From waste to resource: Methods for vegetable waste transformation into sustainable plant-based bioplastics</p> <p>4. Characterization of biobased materials</p> <p><b>SECTION 3
- Biobased materials in food applications</b></p> <p>5. Biobased materials in food packaging</p> <p>6. Use of biobased materials from agro-industrial residues in food packaging</p> <p>7. Biobased materials for increasing the shelf life of food products</p> <p>8. Biobased materials in nutraceuticals</p> <p>9. Biobased edible food coatings for food applications</p> <p>10. Biobased nanomaterials as functional food ingredients</p> <p><b>SECTION 4
- Biobased materials in biomedical applications</b></p> <p>11. Biobased materials in dentistry</p> <p>12. Chitin as a biobased material in osteoporosis</p> <p>13. Chitosan-based biomaterials in biomedical applications</p> <p>14. Biobased materials in wound dressings</p> <p>15. Biobased materials in tissue engineering</p> <p>16. Biobased materials in drug delivery</p> <p>17. Biobased materials in nano drug delivery</p> <p>18. Biobased materials in skin rejuvenation</p> <p>19. Impact of biobased materials on drug delivery for improved cancer therapy</p> <p>20. Biobased materials in nerve regeneration</p> <p>21. Impact of biobased materials on human health</p> <p>22. Cytotoxicity and biocompatibility of biobased materials</p> <p><b>SECTION 5
- Biobased materials in environmental applications</b></p> <p>23. Biobased materials in removing heavy metals from water</p> <p>24. Biobased materials in removing organic dyes from water</p> <p>25. Biobased materials for wastewater treatment</p> <p>26. Functionalized electrospun biobased polymeric materials in filtration</p> <p><b>SECTION 6
- Biobased materials in electronics, coating, catalysis and textile applications</b></p> <p>27. Biomaterials toward flexible nanogenerators</p> <p>28. Biobased advanced coating materials</p> <p>29. Biobased materials in sustainable development of catalysis</p> <p>30. Chitosan biobased materials in textile industry</p> <p><b>SECTION 7
- Sustainability and future prospects of biobased materials</b> </p> <p>31. Life cycle assessment of biobased materials</p> <p>32. Future prospects of biobased materials</p>