Graphene Hydrogels: Synthesis, Properties, and Applications
Editat de Tejraj M. Aminabhavi, Vemula Madhavi, A. Vijaya Bhaskar Reddy, Thotakura Rameshen Limba Engleză Paperback – noi 2025
- Elucidates the basic concepts, synthesis approaches, significant mechanisms of action, and performance aspects of graphene hydrogels
- Covers all major applications of graphene-based hydrogels and their composites
- Provides detailed practical information to help academicians and researchers in industry working on applications of graphene-based hydrogels
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Specificații
ISBN-13: 9780443314483
ISBN-10: 0443314489
Pagini: 550
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 0443314489
Pagini: 550
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Cuprins
Section A: General introduction to graphene hydrogels
1. Fundamental aspects of graphene
2. Introduction to hydrogels
3. Introduction to graphene hydrogels
4. Prospective routes for the synthesis of graphene-based hydrogels
5. Characterization techniques for graphene-based hydrogels
Section B: Enhanced properties of graphene hydrogels
6. Functionalization and surface modification of graphene hydrogels
7. Strategies for improving mechanical and thermal properties
8. Strategies for enhancing electrical conductivity in graphene hydrogels
9. Graphene hydrogels with self-healing and anti-freezing attributes
10. Synergistic effects of graphene–inorganic composite hydrogels
Section C: Applications and perspectives of graphene hydrogels
11. Recent advances in graphene hydrogels for biomedical applications
12. Recent progress in graphene hydrogels for energy storage applications
13. Potential applications of graphene based hydrogels for environmental remediation
14. Electrically conducting graphene hydrogels in healthcare applications
15. Advanced graphene hydrogels in flexible electronics and sensor applications
16. Emerging trends of graphene based hydrogels in agriculture applications
17. Graphene hydrogels in tissue engineering and regenerative medicine
18. Graphene based hydrogels in catalysis process and drug delivery systems
19. Toxicology and critical assessment of graphene hydrogels
20. Superior advantages of graphene-based hydrogels over other hydrogels
21. Current challenges and future strategies in enhancing graphene hydrogel properties
1. Fundamental aspects of graphene
2. Introduction to hydrogels
3. Introduction to graphene hydrogels
4. Prospective routes for the synthesis of graphene-based hydrogels
5. Characterization techniques for graphene-based hydrogels
Section B: Enhanced properties of graphene hydrogels
6. Functionalization and surface modification of graphene hydrogels
7. Strategies for improving mechanical and thermal properties
8. Strategies for enhancing electrical conductivity in graphene hydrogels
9. Graphene hydrogels with self-healing and anti-freezing attributes
10. Synergistic effects of graphene–inorganic composite hydrogels
Section C: Applications and perspectives of graphene hydrogels
11. Recent advances in graphene hydrogels for biomedical applications
12. Recent progress in graphene hydrogels for energy storage applications
13. Potential applications of graphene based hydrogels for environmental remediation
14. Electrically conducting graphene hydrogels in healthcare applications
15. Advanced graphene hydrogels in flexible electronics and sensor applications
16. Emerging trends of graphene based hydrogels in agriculture applications
17. Graphene hydrogels in tissue engineering and regenerative medicine
18. Graphene based hydrogels in catalysis process and drug delivery systems
19. Toxicology and critical assessment of graphene hydrogels
20. Superior advantages of graphene-based hydrogels over other hydrogels
21. Current challenges and future strategies in enhancing graphene hydrogel properties