Electrospun and Nanofibrous Membranes: Principles and Applications 1st edition by Ali Kargari, Takeshi Matsuura, Mohammad Shirazi 0128230576 9780128230572

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ISBN-10 :  0128230576 

ISBN-13 :  9780128230572

Author :  Ali Kargari, Takeshi Matsuura, Mohammad Shirazi 

Electrospun and Nanofibrous Membranes: Principles and Applications covers the fundamental basic science and many engineering aspects of electrospun membrane technology and nanofibers, membrane design and membrane processes. The book comprehensively reviews a wide range of applications including pressure-driven processes, MD process, batteries, oil-water separation, air filtration, drug delivery, fuel-cells, and ion-exchange membranes, as well as antimicrobial membranes.

Electrospun and Nanofibrous Membranes: Principles and Applications 1st Table of contents:

Part I: Principles
Chapter 1: Principles of electrospinning and nanofiber membranes
Abstract
1: Introduction
2: Electrospinning technology
3: Outlines of this book
References
Further reading
Chapter 2: Melt electrospinning for membrane fabrication
Abstract
1: Introduction
2: Melt electrospinning
3: Influential factors on melt electrospinning
4: Progress in melt electrospinning devices
5: Fabricating porous membranes by melt electrospinning
6: Conclusions
References
Chapter 3: Electrospraying for membrane fabrication
Abstract
1: Introduction
2: Background of electrospray
3: Electrospray process and basic principles
4: Governing equations
5: Dimensionless numbers
6: Electrospraying modes
7: Effective parameters
8: Multiple nozzle electrospray
9: High-throughput electrospray
10: Electrospray configurations
11: The comparison of electrospray and other methods in terms of fiber production
12: Applications
13: Patents
14: Conclusions and future perspectives
References
Chapter 4: Gas-assisted electrospinning and electroblowing
Abstract
1: Introduction
2: Input and setup parameters of the electroblowing process
3: Regulated process parameters in the electroblowing method
4: Properties of fibrous structures produced by electroblowing
5: Conclusions and future perspectives
References
Chapter 5: Coaxial electrospinning
Abstract
1: Introduction
2: Engineering fiber structures via coaxial electrospinning
3: Coaxial electrospinning process and parameters
4: Applications of coaxial electrospinning
5: Conclusions and future perspectives
References
Chapter 6: Bubble electrospinning: Mass production of nanomaterials
Abstract
1: Introduction
2: Bubble electrospinning technology
3: The device of bubble electrospinning
4: Fiber morphology of bubble electrospinning
5: Conclusions and future perspectives
References
Chapter 7: Needleless electrospinning
Abstract
1: Introduction
2: Principle of needleless electrospinning
3: Materials suitable for application in needleless electrospinning
4: Device set-up in needleless electrospinning
5: Formation of core-shell nanofibers by needleless electrospinning
6: Application of needleless electrospun membranes
7: Recent patents on needleless electrospinning
8: Challenges and future perspectives
9: Conclusions
References
Chapter 8: Organic and inorganic electrospun nanofibers
Abstract
1: Introduction
2: Fabrication methods of organic/inorganic nanofibers
3: Applications for organic/inorganic nanofibers
4: Patent analysis
5: Characterization of organic/inorganic electrospun fibers
6: Conclusions and future trends
References
Chapter 9: Scale-up strategies for electrospun nanofiber production
Abstract
Acknowledgment
1: Introduction
2: Categories of electrospinning technologies
3: Issues in electrospinning technology
4: Strategies for scale-up electrospinning
5: Progress in large-scale electrospinning
6: Summary
References
Chapter 10: Nonelectro nanofiber spinning techniques
Abstract
1: Introduction
2: Solution blowing (SB-spin)
3: Centrifugal spinning (CS)
4: Melt blowing
5: Other nonelectro nanofiber-spinning techniques
6: Hybrid nanofiber manufacturing techniques
7: Conclusions and future perspectives
References
Chapter 11: Characterization of nanofibers and nanofiber membranes
Abstract
1: Introduction
2: Characterization of nanofibers and nanofiber membranes
3: Physical and morphological characterization
4: Mechanical characterization of the nanofibers
5: Chemical characterization of nanofibers
6: Thermal characterization
7: Electrical and dielectric behavior measurement
8: Conclusion and future perspectives
References
Part II: Applications
Chapter 12: Electrospun membranes for microfiltration
Abstract
1: Introduction
2: Comparison of conventional techniques for MF fabrication with electrospinning technique
3: Modification of electrospun nanofiber membranes for microfiltration
4: Application of electrospun nanofiber membranes on microfiltration
5: Recent patents in microfiltration application of nanofibrous membranes
6: Conclusions and future perspectives
References
Chapter 13: Electrospun membranes for UF/NF/RO/FO/PRO membranes and processes
Abstract
1: Introduction
2: Pressure-driven membrane process
3: Osmotically driven membrane processes
4: Conclusion and future perspectives
References
Chapter 14: Electrospun and nanofibrous membranes for membrane distillation
Abstract
1: Introduction
2: Electrospinning
3: Other fabrication methods
4: Characterization of electrospun nanofibrous membranes (ENMs) for MD
5: Modification of ENMs for MD
6: Different types of ENMs
7: Patents on ENMs for MD application
8: Future perspective and concluding remarks
References
Chapter 15: Nanofibers for oil-water separation and coalescing filtration
Abstract
1: Introduction
2: Fundamentals of surface science
3: Surface modification
4: Preparation of nanofiber membranes
5: Membrane stability
6: Case studies on separation of the oil-water emulsion
7: Fundamentals and applications of nanofiber-embedded coalescing filtration
8: Comparison of electrospun and phase inversion membranes for the separation of oil-in-water emulsion
9: Fouling and cleaning of the electrospun membranes applied for oil-in-water separation
10: Conclusion and future perspectives
References
Chapter 16: Electrospun adsorptive membranes for ion adsorption
Abstract
1: Introduction
2: Concept of adsorptive membranes
3: Electrospinning techniques
4: Types of electrospun adsorptive membranes
5: Polymer types for nanofiber membranes
6: Modification methods
7: Electrospun functionalization
8: Inorganic electrospun membranes
9: Mixed matrix membranes
10: Current challenges and future potential
References
Chapter 17: Electrospun ion-exchange membranes
Abstract
1: Introduction
2: Fundamental aspects of ion-exchange nanofibers
3: Application of ion-exchange nanofibers
4: Summary and outlook
References
Chapter 18: Nanospun membranes developed by electrospinning techniques for drug delivery applications
Abstract
Acknowledgments
1: Introduction
2: Electrospun fibers
3: Drug loading and drug release from electrospun nanofibers
4: Materials
5: Applications
6: Conclusions and future prospective
References
Further reading
Chapter 19: Antimicrobial electrospun membranes
Abstract
1: Introduction
2: Main applications of antimicrobial nanofibrous membranes
3: Antimicrobial agents and their usage in wound dressings
4: Conclusion and future perspectives
References
Chapter 20: Electrospun membranes for batteries
Abstract
1: Introduction
2: Electrospun membranes for the fabrication of LIBs
3: Electrospun membranes for the fabrication of next-generation batteries
4: Research and commercialization efforts across the world
5: Challenges and perspectives
References
Chapter 21: Electrospun membranes for fuel cell technology
Abstract
1: Introduction
2: Electrospinning setup and process
3: Operating parameters for electrospinning
4: Electrospun membranes for fuel cell applications
5: Conclusion and future perspectives
References
Chapter 22: Electrospun membranes for air filtration
Abstract
1: Introduction
2: Mechanism of filtration
3: Performance evaluation
4: Electrospun nanofiber materials for air filtration
5: Electrospun nanofiber configurations
6: Applications for air filtration
7: Conclusions and future perspectives
References
Chapter 23: Smart and novel nanofiber membranes
Abstract
1: Introduction
2: Janus membranes
3: Nanofiber membranes in regenerative medicine
4: Nanofiber membranes with nanonets/spider web
5: Nanofibrous sensitive membranes
6: Nanofiber membranes for the encapsulation of bioactive compounds
7: Conclusion and future perspectives
References
Chapter 24: Future perspectives and market of the electrospun and nanofibrous membranes
Abstract
1: Introduction
2: Progress in research and technology
3: Progress in the market
4: Future perspective

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