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Full Description
Enables readers to develop more efficient polymer microspheres and capsules
Polymer Microspheres and Microcapsules provides comprehensive insights on microspheres, their production, and a broad range of applications in areas like biopharmaceutical and biomedical engineering, consumer home and personal care products, heat storage, sensors, drug delivery, and electron information. The book not only includes the advancement in biotechnology applications, but also includes preparation methods, principles, and technologies from monomer and preformed polymer systems. Examples of key concepts are included throughout along with the latest state-of-the-art research in the field.
Polymer Microspheres and Microcapsules includes information on:
Important characteristics of microspheres, such as size (diameter) and size distribution and how to measure these two characteristics through laser particles and static/dynamic light scattering
Existing challenges in the field, including preparation and manufacturing with smaller particle sizes (tens of nanometers) and lack of biodegradable materials approved for injection
Hollow microcapsules as a micro-reservoir for energy storage, where the energy storage material is encapsulated in a microcapsule
Preparation of polymer microspheres and microcapsules from preformed polymers, covering morphology control, the emulsification-solidification method, and the single and complex coacervation methods
Polymer Microspheres and Microcapsules serves as an excellent resource for undergraduate and graduate students in chemistry, chemical engineering, biology, pharmaceutics and medicines, polymer materials, electronic information, and other related majors. The book is also valuable as a reference for researchers and technicians in related fields.
Contents
Chapter 1 Introduction
Chapter 2 Preparation of microspheres and microcapsules from monomer
2.1 Emulsion polymerization vs suspension polymerization
2.2 Soap-free emulsion polymerization vs emulsion polymerization
2.3 Dispersion/precipitation polymerization vs soap-free emulsion polymerization
2.4 Mini-emulsion polymerization vs suspension polymerization
2.5 Microemulsion polymerization vs emulsion polymerization
2.6 Seeded polymerization
2.7 New technique - porous membrane emulsion technique
2.8 Summary and prospects
Chapter 3 Preparation of microspheres and microcapsules from preformed polymer
3.1 Emulsification-solidification method
3.2 Membrane emulsification technique to prepare uniform particles
3.3 Single coacervation method
3.4 Complex coacervation method
3.5 Spray drying method
3.6 Selfemulsifying-solidification method
3.7 Summary and prospects
Chapter 4 Applications of polymer microspheres and microcapsules in bioreaction engineering
4.1 Introduction
4,2 Applications of polymeric microspheres and microcapsules in cell culture
4.3 Applications of microcarrier in stem cell culture
4.4 Applications of polymeric microspheres and microcapsules in enzyme immobilization
4.5 Summary and prospects
Chapter 5 Applications of polymer microspheres and microcapsules in bioseparation engineering
5.1 Introduction
5.2 Chromatography
5.3 High-throughput chromatography based on high-performance chromatographic medium
5.4 Applications of polymer microspheres in purification of biomacromolecules
5.5 Applications of polymer microspheres in purification of peptides and natural products
5.6 New separation technologies based on polymer microspheres
5.7 Summary and prospects
Chapter 6 Applications of polymer microspheres and microcapsules in pharmaceutical engineering
6.1 Introduction
6.2 Applications of polymeric microspheres and microcapsules in sustained release systems
6.3 Exploration of polymeric micro/nano particles in vaccine formulation
6.4 Exploration of polymeric micro/nano particles in antitumor drug delivery
6.5 Summary and prospects
Chapter 7 Applications of polymer microspheres and microcapsules for detection engineering
7.1 Introduction
7.2 Applications for biomedical detection
7.2.1 Particle aggregation measurements
7.2.2 Microsphere-flow cytometry systems
7.2.3 Magnetic bead screening
7.2.4 Nucleic acid analysis
7.2.5 Others
7.3 Other applications for detection engineering
7.3.1 Molecular imprinting technology
7.3.2 Wound detection
7.3.3 Environmental pollutant monitor
7.3.4 Pesticide residue determination
7.3.5 Intelligent sensors
7.4 Summary and prospects
Chapter 8 Applications of polymer microspheres and microcapsules in electronic information
8.1 Introduction
8.2 Development of polymer microcapsules in printing display devices
8.3 Applications of microspheres and microcapsules in sensors
8.4 Research progress of microspheres and microcapsules in electrical conductivity
8.5 Self-repair materials and technology of polymer microcapsules
8.6 Applications of microspheres and microcapsules in graphic communication fields
8.7 Summary and prospects
Chapter 9 Phase change microencapsulation for thermal storage applications
9.1 Introduction
9.2 Preparation of microencapsulated phase change materials
9.3 Applications
9.3.1 Textile materials
9.3.2 Building materials
9.3.3 Battery thermal management
9.4 Summary and prospects
Chapter 10 Microcapsules for consumer products
10.1 Introduction
10.2 Preparation methods of microcapsules for consumer products
10.3 Characterization techniques of microcapsules
10.4 Applications of microcapsules in different products
10.5 Current technical challenges and future perspectives
10.6 Summary and prospects
