Physicochemical Properties of Chitosan-Based Materials in Multiple Phases: From Fundamentals to Biomedical, Pharmaceutical and Environmental Applications
Editat de Emilia Szymanska, Giuseppe Cavallaroen Limba Engleză Paperback – 29 sep 2025
The utilization potential of chitosan for the fabrication of functional biomaterials in either liquid, semi-solid, or solid-state different phases (aqueous mixtures, hydrogels, solid films) is also covered. Finally, the key factors important to obtain chitosan materials suitable for biomedical applications and the characteristics of hybrid materials formed by chitosan and other components, including surfactants, polyelectrolytes, inorganic nanoparticles, are discussed.
- Explores innovative strategies for the fabrication of biomaterials based on chitosan
- Provides a comprehensive overview of recent chitosan materials, from their manufacturing stages and characteristics to their applications in the biomedical and pharmaceutical fields
- Outlines the major opportunities and challenges of chitosan hybrid materials required for pharmaceutical, biomedical, and environmental applications
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Specificații
ISBN-13: 9780443221514
ISBN-10: 0443221510
Pagini: 430
Dimensiuni: 191 x 235 x 22 mm
Greutate: 0.9 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0443221510
Pagini: 430
Dimensiuni: 191 x 235 x 22 mm
Greutate: 0.9 kg
Editura: ELSEVIER SCIENCE
Cuprins
Section 1. Introduction to chitosan
1. Fundamentals of chitosan
Section 2: Biomaterials based on chitosan in different phases (aqueous medium, gels, and solid films)
Chitosan based complexes in aqueous medium
2. Chitosan/surfactant systems
3. Chitosan/polyelectrolytes complexes
Semi-solid structures with chitosan
4. Chitosan hydrogels (physically and chemically crosslinked) / Physically crosslinked gels with chitosan
5. Chemically crosslinked gels with chitosan
Chitosan based materials in solid state
6. Self-assembly of chitosan-based thin films
7. Nanocomposite films.
8. Chitosan micro- and nano-size materials/structures
Section 3. Biomedical and pharmaceutical applications of chitosan based materials
9. Mucoadhesive chitosan-based drug carriers for local application
10. Chitosan as antiviral agent and vaccine adjuvant
11. Controlled-release and targeted delivery systems based on chitosan
12. Chitosan-based materials for wound healing and regeneration
13. Chitosan in tissue engineering
Section 4. Environmental application of chitosan-based materials14. Chitosan for sustainable packaging
15. Chitosan for remediation purposes
16. Chitosan as biomaterial for conservation of Cultural Heritages
17. Chitosan in agricultural field
Section 5. Conclusions.
18. From the lab to the market: Current use, perspectives and challenges of chitosan-based materials
1. Fundamentals of chitosan
Section 2: Biomaterials based on chitosan in different phases (aqueous medium, gels, and solid films)
Chitosan based complexes in aqueous medium
2. Chitosan/surfactant systems
3. Chitosan/polyelectrolytes complexes
Semi-solid structures with chitosan
4. Chitosan hydrogels (physically and chemically crosslinked) / Physically crosslinked gels with chitosan
5. Chemically crosslinked gels with chitosan
Chitosan based materials in solid state
6. Self-assembly of chitosan-based thin films
7. Nanocomposite films.
8. Chitosan micro- and nano-size materials/structures
Section 3. Biomedical and pharmaceutical applications of chitosan based materials
9. Mucoadhesive chitosan-based drug carriers for local application
10. Chitosan as antiviral agent and vaccine adjuvant
11. Controlled-release and targeted delivery systems based on chitosan
12. Chitosan-based materials for wound healing and regeneration
13. Chitosan in tissue engineering
Section 4. Environmental application of chitosan-based materials14. Chitosan for sustainable packaging
15. Chitosan for remediation purposes
16. Chitosan as biomaterial for conservation of Cultural Heritages
17. Chitosan in agricultural field
Section 5. Conclusions.
18. From the lab to the market: Current use, perspectives and challenges of chitosan-based materials