Sustainable Green Biomaterials As Drug Delivery Systems
Series: Biomaterials, Bioengineering and Sustainability; 1;
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99 852 Ft
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Estimated delivery time: In stock at the publisher, but not at Prospero's office. Delivery time approx. 3-5 weeks.
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Product details:
- Publisher Springer
- Date of Publication 19 February 2025
- Number of Volumes 1 pieces, Book
- ISBN 9783031790614
- Binding Hardback
- No. of pages433 pages
- Size 235x155 mm
- Language English
- Illustrations 6 Illustrations, black & white; 83 Illustrations, color 697
Categories
Short description:
The book provides a comprehensive exploration of sustainable practices in biomaterial development for biomedical applications, covering diverse topics such as green synthesis methods, the potential of biodegradable materials, renewable resources for biopolymers, strategies in polymer synthesis, bio-mediated nanomaterials, sustainable manufacturing techniques including 3D and 4D printing, protein-based biomaterials, composite biomaterials derived from cellulose, chitin, and chitosan, as well as hydroxyapatite-starch-based biomaterials, carbonaceous materials, eco-friendly synthesis of metal and metal oxide nanomaterials, silk fibroin scaffold synthesis, utilization of green catalysts, cellulose-derived hydrogels for tissue engineering, plant extract-mediated synthesis of metallic nanoparticles, and eggshell-derived biomaterial synthesis. This multifaceted approach addresses the pressing need for environmentally conscious solutions in the field of biomedical engineering, offering insights into the synthesis, properties, and applications of sustainable biomaterials. This book provides a comprehensive understanding of biodegradable materials, offering a valuable asset for researchers and Ph.D. scholars involved in the ever-changing field of sustainable biomedical engineering.
MoreLong description:
The book provides a comprehensive exploration of sustainable practices in biomaterial development for biomedical applications, covering diverse topics such as green synthesis methods, the potential of biodegradable materials, renewable resources for biopolymers, strategies in polymer synthesis, bio-mediated nanomaterials, sustainable manufacturing techniques including 3D and 4D printing, protein-based biomaterials, composite biomaterials derived from cellulose, chitin, and chitosan, as well as hydroxyapatite-starch-based biomaterials, carbonaceous materials, eco-friendly synthesis of metal and metal oxide nanomaterials, silk fibroin scaffold synthesis, utilization of green catalysts, cellulose-derived hydrogels for tissue engineering, plant extract-mediated synthesis of metallic nanoparticles, and eggshell-derived biomaterial synthesis. This multifaceted approach addresses the pressing need for environmentally conscious solutions in the field of biomedical engineering, offering insights into the synthesis, properties, and applications of sustainable biomaterials. This book provides a comprehensive understanding of biodegradable materials, offering a valuable asset for researchers and Ph.D. scholars involved in the ever-changing field of sustainable biomedical engineering.
MoreTable of Contents:
Chapter 1. Sustainable Green Biomaterials in Drug delivery.- Chapter 2. Prospects of biodegradable material: sustainable and patient-centric approach in the realm of biomedical engineering.- Chapter 3. Prospects of biodegradable material: Sustainable and patient-centric approach in the realm of biomedical engineering.- Chapter 4. Probiotic Bacterial Cellulose: A Bio-mediated Nanomaterial for Health Care Applications.- Chapter 5. 3D Printing and 4D Printing: Sustainable manufacturing techniques for Green Biomaterials.- Chapter 6. Proteins as Biocompatible Material for Biomedical Applications.- Chapter 7. Graphene-based Carbonaceous Materials: A Sustainable Biomaterial for Biomedical Application.- Chapter 8. Green Approach for Synthesizing Silk Fibroin Biomaterial Scaffolds.- Chapter 9. Green Catalysts in the Synthesis of Biomaterials for Biomedical Applications.- Chapter 10. Utilisation of plant extracts for green synthesis of metallic nanoparticles.- Chapter 11. Green and sustainable synthesis of silver nanoparticles using wastes of crude drugs for traditional medicinal use in Nara, Japan.- Chapter 12. Metal Frameword in Biosensor.- Chapter 13. Cellulose, Chitin, and Chitosan Composite-Based Sustainable Biomaterials.- Chapter 14. Sustainable Synthesis of Cellulose-Derived Hydrogels for Tissue Engineering.- Chapter 15. Hydroxyapatite-Starch-Based Sustainable Biomaterials.- Chapter 16. Surfactant-free Synthesis of Metal and Metal oxide Nanomaterials: Sustainable and eco-synthesis methods.
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