Medienkombination, Englisch, 1170 Seiten, Buch mit Online-Zugang, Format (B × H): 155 mm x 235 mm
Medienkombination, Englisch, 1170 Seiten, Buch mit Online-Zugang, Format (B × H): 155 mm x 235 mm
ISBN: 978-3-319-53656-9
Verlag: Springer
The first part of the Handbook covers the fundamental aspects, experimental setup, synthesis, properties and physico-chemical characterization of nanofibers. Specifically, this part details the history of nanofibers, different techniques to design nanofibers, self-assembly in nanofibers, critical parameters of synthesis, fiber alignment, modeling and simulation, types and classifications of nanofibers, and signature physical and chemical properties (i.e. mechanical, electrical, optical and magnetic), toxicity and regulations, bulk and surface functionalization and other treatments to allow them to a practical use. Characterization methods are also deeply discussed here. The second part of the Handbook deals with global markets and technologies and emerging applications of nanofibers, such as in energy production and storage, aerospace, automotive, sensors, smart textile design, energy conversion, tissue engineering, medical implants, pharmacy and cosmetics. Attention is given to the future of research in these areas in order to improve and spread the applications of nanofibers and their commercialization.
Zielgruppe
Research
Autoren/Hrsg.
Fachgebiete
- Technische Wissenschaften Maschinenbau | Werkstoffkunde Technische Mechanik | Werkstoffkunde Materialwissenschaft: Biomaterialien, Nanomaterialien, Kohlenstoff
- Technische Wissenschaften Technik Allgemein Nanotechnologie
- Naturwissenschaften Chemie Physikalische Chemie Molekulare Chemische Nanostrukturen
Weitere Infos & Material
Part I: Fundamental aspects, experimental setup, synthesis, properties and physicochemical characterizationChapter 1: Introduction to nanofibers fieldsChapter 2: History and origin of nanofibers in natureChapter 3: Types and classification of nanofibersChapter 4: Regulation, toxicity, and environmental impactsChapter 5: Different methods for nanofibers design and fabricationChapter 6: Critical parameters for nanofibers productionChapter 7: Fiber alignment, self-assembling and self-twistingChapter 8: Nanoformulation, designing and fabrication of nanofibersChapter 9: Design of porous, core-shell and hollow nanofibersChapter 10: Modeling and simulation of synthesis processChapter 11: Modeling and simulation of nanofibrous preformChapter 12: Post and in-situ surface treatment and functionalizationChapter 13: Dry and wet surface functionalization of nanofibersChapter 14: Physicochemical characterization of nanofibersChapter 15: Characterization and evaluation of nanofibers materialsChapter 16: Polymer based nanofibers: Preparation, fabrication and applicationsChapter 17: Metal oxides-based nanofibers: Engineering of porous and nanoporous nanostructuresChapter 18: Mixed metal and metal oxide nanofibers: Preparation, fabrication and applicationsChapter 19: Carbohydrate based nanofibers: Applications and potentialsChapter 20: Metal–organic frameworks based nanofibersChapter 21: Multifunctional composite nanofibersChapter 22: Carbon based nanofibers: Fullerenes, diamond and carbon nanostructuresChapter 23: Mesoporous and macroporous nanofibersChapter 24: Nanostructured fibers as thin films and nanocoatingsChapter 25: Challenges and future aspectsPart II: Global markets, technologies and emerging applicationsChapter 26: Nanofiber for solar and fuel and biofuel cells
Chapter 27: Nanofibers for batteries and supercapacitorsChapter 28: Nanofiber for catalysis and electrocatalysisChapter 29: Nanofiber for hydrogen storage and thermoelectric applicationsChapter 30: Nanofiber electrodes for biosensors
Chapter 31: Nanofiber surfaces for catalytic applicationsChapter 32: Nanofibers for filtration and water treatmentChapter 33: Nanofibers for membrane applicationsChapter 34: Functional nanofiber for drug releasing and medical prosthesis
Chapter 35: Nanofibers for tissue engineering, scaffold and cosmetic skin maskChapter 36: Nanofibers as medical implantChapter 37: Membrane based nanofibers for health applicationsChapter 38: Nanofiber applications in aerospace
Chapter 39: Nanofiber applications in military protective clothingChapter 40: Smart textiles with architecture nanostructured fibersChapter 41: Tuning of electrical and magnetic properties for electromagnetic shieldingChapter 42: Nanofiber applications in in constructing materialsChapter 43: Optical nanofiber for spectroscopyChapter 44: Upscaling and industrial applications of nanofibers
Chapter 45: New promising techniques for manufacturing of nanofibersChapter 46: Future outlook of architecture and nanostructured fibers in industry