Biopolymers are becoming an increasingly important area of research as traditional chemical feedstocks run low and concerns about environmental impacts increase. One area of particular interest is their use for more sustainable development of metal nanoparticles. Biopolymer-Based Metal Nanoparticle Chemistry for Sustainability Applications, Volume 2 reviews key uses of biopolymers and biopolymer-based metal nanoparticles for a range of key sustainability-focused applications.
After providing contextual examples of applications across the fields of food science, biomedicine and biochemistry, the book goes on to explore further sustainability-focused applications of Biopolymer-Based Metal Nanoparticles in such important areas as catalysis, environmental science, biosensing, and energy.
Author(s): Mahmoud Nasrollahzadeh
Publisher: Elsevier
Year: 2021
Language: English
Pages: 724
City: Amsterdam
Front-Matt_2021_Biopolymer-Based-Metal-Nanoparticle-Chemistry-for-Sustainabl
Front Matter
Copyrigh_2021_Biopolymer-Based-Metal-Nanoparticle-Chemistry-for-Sustainable-
Copyright
Contributo_2021_Biopolymer-Based-Metal-Nanoparticle-Chemistry-for-Sustainabl
Contributors
Chapter-1---Application-of-bio_2021_Biopolymer-Based-Metal-Nanoparticle-Chem
Application of biopolymers in bioplastics
Introduction
Degradation of bioplastics
Bioplastic biodegradation under different environmental conditions
Soil
Compost
Aquatic environments
Bioplastic-degrading microorganisms
Biopolymeric sources of bioplastics
Polyethylene
Polylactic acid
Polyhydroxyalkanoates
Polybutylene succinate
Thermoplastic starch
Zein
Cellulose
Lignin
Albumin
Natural rubber
Chitosan
Other examples of biopolymers in bioplastic preparation
Current applications of bioplastics
Conclusion and future perspective
References
Chapter-2---Polysaccharides_2021_Biopolymer-Based-Metal-Nanoparticle-Chemist
Polysaccharides in food industry
Introduction
Structural organization of polysaccharides
Major functions of polysaccharides in a food system
Water-binding capacity
Gelation
Emulsions and emulsifiers
Major food applications of polysaccharides
Texture improvement
Oil emulsification
Flavor release
Polysaccharides as dietary fibers
Control of syneresis
Gluten-free bakery products
Stability of polysaccharides to processing
Important factors for the use of polysaccharides in the food industry
Microbial polysaccharides in food industry
Xanthan
Gellan
Pullulan
Alginate
β-Glucan in food industry
Plant polysaccharides in food industry
Guar gum
Starch
Pectin
Chitin and chitosan in food industry
Conclusion and future prospects
References
Chapter-3---Proteins-in-_2021_Biopolymer-Based-Metal-Nanoparticle-Chemistry-
Proteins in food industry
Introduction
Structure and chemistry of food proteins
Functional properties of proteins
Gelation
Emulsifying and foaming
Factors affecting properties of proteins in food products
Interactions of proteins with food components
Water
Carbohydrates
Salts
Food processes
Other processes
Proteins used in food industry
Casein
Collagen and gelatin
Whey
Egg proteins
Soybean protein
Gluten
Conclusion and future prospects
References
Chapter-4---Food-packaging-applicati_2021_Biopolymer-Based-Metal-Nanoparticl
Food packaging applications of biopolymer-based (nano)materials
Introduction
Properties of bionanocomposites for food packaging
Mechanical properties
Barrier properties
Biodegradation properties
Antimicrobial properties
Polysaccharide-based (nano)materials for food packaging
Cellulose-based packaging materials
Starch-based packaging materials
Chitin and chitosan-based packaging materials
Other polysaccharide-based packaging materials
Lignin-based (nano)materials for food packaging
Protein-based (nano)materials for food packaging
Gelatin-based packaging materials
Zein-based packaging materials
Whey-based packaging materials
Casein-based packaging materials
Conclusion and future perspective
References
Chapter-5---Biomedical-applications_2021_Biopolymer-Based-Metal-Nanoparticle
Biomedical applications of biopolymer-based (nano)materials
Introduction
Biopolymer-based (nano)materials for biomedical applications
Drug delivery
Chitin and chitosan-based (nano)materials in drug delivery
Cellulose-based (nano)materials in drug delivery
Alginate-based (nano)materials in drug delivery
Pectin-based (nano)materials in drug delivery
Gelatin-based (nano)materials in drug delivery
Lignin-based (nano)materials in drug delivery
Tissue engineering
Chitin and chitosan-based (nano)materials in tissue engineering
Cellulose-based (nano)materials in tissue engineering
Alginate-based (nano)materials in tissue engineering
Pectin-based (nano)materials in tissue engineering
Gelatin-based (nano)materials in tissue engineering
Lignin-based (nano)materials in tissue engineering
Wound dressing/healing
Chitin and chitosan-based (nano)materials in wound dressing/healing
Cellulose-based (nano)materials in wound dressing/healing
Alginate-based (nano)materials in wound dressing/healing
Pectin-based (nano)materials in wound dressing/healing
Gelatin-based (nano)materials in wound dressing/healing
Lignin-based (nano)materials in wound dressing/healing
Other biomedical applications (e.g., bioimaging, sensors, etc.)
Application of chitosan-based (nano)materials
Application of cellulose-based (nano)materials
Application of alginate-based (nano)materials
Application of pectin-based (nano)materials
Application of gelatin-based (nano)materials
Conclusion
References
Chapter-6---Biological-applications_2021_Biopolymer-Based-Metal-Nanoparticle
Biological applications of biopolymer-based (nano)materials
Introduction
Biopolymer-based (nano)materials for biological applications
Antioxidant applications
Chitin and chitosan-based (nano)materials
Cellulose-based (nano)materials
Pectin-based (nano)materials
Alginate-based (nano)materials
Gelatin-based (nano)materials
Lignin-based (nano)materials
Antibiofilm applications
Chitosan-based (nano)materials
Pectin-based (nano)materials
Gelatin-based (nano)materials
Lignin-based (nano)materials
Antibacterial applications
Chitin and chitosan-based (nano)materials
Cellulose-based (nano)materials
Pectin-based (nano)materials
Alginate-based (nano)materials
Gelatin-based (nano)materials
Lignin-based (nano)materials
Antifungal applications
Chitin and chitosan-based (nano)materials
Cellulose-based (nano)materials
Pectin-based (nano)materials
Alginate-based (nano)materials
Gelatin-based (nano)materials
Lignin-based (nano)materials
Antiviral applications
Chitin and chitosan-based (nano)materials
Pectin-based (nano)materials
Gelatin-based (nano)materials
Lignin-based (nano)materials
Conclusion
References
Chapter-7---Catalytic-applications-_2021_Biopolymer-Based-Metal-Nanoparticle
Catalytic applications of biopolymer-based metal nanoparticles
Introduction
Catalytic applications of polysaccharide-based metal nanoparticles
Cellulose
Starch
Alginate
Chitin & Chitosan
Gum
Catalytic applications of lignin-based metal nanoparticles
Catalytic applications of proteins-based metal nanoparticles
Collagen
Gelatin
Conclusion and future perspective
References
Chapter-8---Environmental-applicati_2021_Biopolymer-Based-Metal-Nanoparticle
Environmental applications of biopolymer-based (nano)materials
Introduction
Types, chemistry, and properties of biopolymer-based (nano)composites
Polysaccharides
Lignocellulosic complex
Proteins
Applications of biopolymer-based (nano)composites in water treatment
Chitosan-based (nano)composites
Cellulose-based (nano)composites
Gum-based (nano)composites
Alginate-based (nano)composites
Starch-based (nano)composites
Pectin-based (nano)composites
Lignin-based bio(nano)sorbents
Protein-based (nano)composites
Other environmental applications
Biohydrogen production
Electrochemical applications
Conclusion and future perspective
References
Chapter-9---Biopolymer-based-meta_2021_Biopolymer-Based-Metal-Nanoparticle-C
Biopolymer-based metal nanoparticles for biosensing
Introduction
Types of biosensors
Electrochemical biosensors
Optical biosensors
Thermal biosensors
Piezoelectric biosensors
Properties of biopolymers for biosensing
Biocompatibility
Immobilization matrix
Bioresponsiveness
Biopolymer-based metal nanoparticles for biosensing
Chitosan-based biosensors
Cellulose-based biosensors
Alginate-based biosensors
Other biopolymer-based biosensors
Conclusions and future perspectives
References
Chapter-10---Biopolymer-based--nano-_2021_Biopolymer-Based-Metal-Nanoparticl
Biopolymer-based (nano)materials for supercapacitor applications
Introduction
Principles of supercapacitors
Different types of supercapacitors
Electrode materials
Electrolytes
Aqueous and organic electrolytes
Ionic liquids
Biopolymeric composites for supercapacitor applications
Polysaccharide-based (nano)materials for supercapacitor applications
Cellulose-based supercapacitors
Chitin and chitosan-based supercapacitors
Starch-based supercapacitors
Lignin-based (nano)materials for supercapacitor applications
Protein-based (nano)materials for supercapacitor applications
Gelatin-based supercapacitors
Silk-based supercapacitors
Conclusion and future perspective
References
Chapter-11---Biopolymer-based--na_2021_Biopolymer-Based-Metal-Nanoparticle-C
Biopolymer-based (nano)materials for hydrogen storage
Introduction
Methods of hydrogen storage
High pressure
Liquefaction
Solid state
Mechanism of hydrogen storage
Chemical storage
Physisorption
Biopolymer-based (nano)materials for hydrogen storage
Lignin
Cellulose
Chitosan
Starch
Conclusion and future perspective
References
Index_2021_Biopolymer-Based-Metal-Nanoparticle-Chemistry-for-Sustainable-App
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