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Группа: Анонимные пользователи Сеть: Интернет |
Аннотация
The book focuses on aerogels for biomedical applications, thermal insulation, energy storage, fuel cells, batteries and environmental remediation.
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Интернет | Анонимные пользователи |
Оглавление
- front-matter
- Table of Contents
- Preface
- Summary
- 1
- Polymer Aerogels: Preparation and Potential for Biomedical Application
- 1. Introduction
- 2. Polysaccharides as a basis for aerogels production
- 2.1 Cellulose as the world's most abundant organic resource
- 2.2 Plant polysaccharide main starch
- 2.3 Other polysaccharides
- 3. Preparation of polymeric aerogels
- 3.1 Polymeric aerogels can be designed to have defined pores
- 4. Drying of polymeric aerogel
- 4.1 Supercritical drying
- 4.2 Freeze-drying
- 5. Biomedical applications
- 5.1 Chitosan aerogels may accelerate blood coagulation
- 5.2 Pectin aerogel can carry pharmaceuticals
- 5.3 Cellulose aerogel is used for wound healing
- 5.4 Alginate aerogel is thermogenic intelligent and pH sensitive
- Conclusions
- Acknowledgment
- References
- 2
- Aerogels for Biomedical Applications
- 1. Introduction
- 2. Aerogels in biomedicine
- 2.1 Aerogels in drug delivery
- 2.2 Aerogels in biomedical implantable devices
- 2.3 Aerogels in tissue engineering and bone regeneration
- 2.4 Aerogels in biosensing
- 3. Future prospects and conclusions
- References
- 3
- Bioaerogels: Synthesis Approaches, Biomedical Applications and Cell Uptake
- 1. Introduction
- 2. Bioaerogels synthesis
- 2.1 Chitin bioaerogels
- 2.2 Chitosan bioaerogels
- 2.3 Alginate and agar bioaerogels
- 2.4 Cellulose bioaerogels
- 3. Biomedical applications of bioaerogels
- 3.1 Bioaerogels can be used to support drug administration
- 3.2 Bioaerogels can be used as tissue engineering scaffolding
- 4. Biocompatibility, toxicity, biodegradability and intracellular absorption
- 4.1 Bioaerogels have biocompatibility and low toxicity
- 4.2 Bioaerogels are biodegradable and are absorbed via intracellular
- Conclusions
- Acknowledgment
- References
- 4
- Aerogels for Insulation Applications
- 1. Introduction
- 2. Aerogel as insulating material
- 3. Processing of insulation aerogel
- 4. Thermal insulation properties
- 4.1 Insulation of aerogel as composite material
- 4.1.1 Solid phase
- 4.1.2 Liquid phase
- 5. Applications of insulation aerogels
- Conclusions
- References
- 5
- Aerogels as Catalyst Support for Fuel Cells
- 1. Introduction
- 2. Carbon based aerogels
- 2.1 Carbon aerogels
- 2.2 Graphene aerogels
- 2.3 Doped aerogels
- 2.4 Mesoporous carbon
- 3. Non-precious catalyst using aerogels as support for DMFC applications
- Conclusionand outlook
- References
- 6
- Aerogels Utilizations in Batteries
- 1. Introduction
- 2. Types of batteries
- 2.1 Lead - acid battery
- 2.2 Metal - ion battery
- 2.3 Metal air battery
- 3.1 Carbon aerogel
- 3.2 Graphene Aerogel
- 3.3 Silicon aerogel
- 3.4 Metallic aerogel
- 3.5 Composite electrodes
- Conclusions
- References
- 7
- Aerogels Materials for Applications in Thermal Energy Storage
- 1. Introduction
- 2. Current status of the aerogel in thermal storage
- Conclusions
- Acknowledgments
- References
- 8
- Aerogels for Sensor Application
- 1. Introduction
- 2. Classification and physicochemical properties of aerogels
- 2.1 Inorganic aerogels
- 2.2 Oxide-based aerogels
- 2.3 Metallic aerogels (MAgs)
- 2.4 Carbon aerogels (CAgs)
- 2.5 Chalcogenide aerogels
- 2.6 Organic aerogels (OAgs)
- 2.7 Hybrid aerogels (HAgs)
- 3. Sensors application
- 3.1 Gas sensors
- 3.2 Gas-phase sensing
- 3.3 Water vapor sensor
- 3.4 Oxygen sensor
- 3.5 Pressure sensor
- 3.6 Strain sensor
- 3.7 Stress sensors
- 3.8 Hydrogen peroxide sensor
- 3.9 Electrochemical sensor
- Conclusions
- Acknowledgments
- References
- 9
- Aerogels as Pesticides
- 1. Introduction
- 2. Uses in agriculture
- 3. Aerogels as acaricides
- 4. Aerogels as insecticides
- Conclusion
- References
- back-matter
- Keyword Index
- About the Editors
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