Fabrication and Functionalization of Advanced Tubular Nanofibers and their Applications
- 1st Edition - January 27, 2023
- Imprint: Woodhead Publishing
- Editors: Baoliang Zhang, Mudasir Ahmad
- Language: English
- Paperback ISBN:9 7 8 - 0 - 3 2 3 - 9 9 0 3 9 - 4
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 9 9 0 4 0 - 0
Fabrication and Functionalization of Advanced Tubular Nanofibers and their Applications describes the synthesis, preparation and characterization of carbon-based tubular nanofiber… Read more
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Request a sales quoteFabrication and Functionalization of Advanced Tubular Nanofibers and their Applications describes the synthesis, preparation and characterization of carbon-based tubular nanofibers and their applications in environmental protection and new energy sources. The book explores novel strategies for the preparation of carbon tubular nanofibers and explains how they have been used to great effect in a range of applications, including energy and healthcare. The processing-structure-property relationship in functional inorganic/organic materials is examined at the nano-level, explaining where interesting electronic, magnetic, optical, mechanical or catalytic and therapeutic properties are derived.
Covering everything from the basics to their use in practice, including the synthetic procedure and characterization, this book is the perfect guide for anyone interested in the design of nanomaterials for advanced applications. Nanomaterial science is a relatively young and rapidly developing discipline that includes aspects of physics, chemistry and biology and is finding applications in some of mankind’s greatest current challenges.
- Describes how to produce superior tubular nanofiber performance in one or more characteristics
- Addresses important advances in the synthesis, processing and surface modification of new materials
- Explains innovative applications of tubular nanofibers in environmental and biotechnology applications
Graduate students and researchers in academia seeking a better understanding of tubular nanofibers
- Cover Image
- Title Page
- Copyright
- Table of Contents
- Contributors
- Preface
- Chapter 1 The review and introduction of hypercrosslinked polymer
- 1.1 Introduction
- 1.2 Synthesis of different types of hypercrosslinked polymers
- 1.3 Hypercrosslinked polymer by polycondensation
- 1.4 Properties of the hypercrosslinked polymers
- 1.5 Morphology of hypercrosslinked polymers
- 1.6 Applications of hypercrosslinking polymers
- 1.7 Future consideration and challenges
- References
- Chapter 2 Novel synthetic method for tubular hypercrosslinked polymer nanofibers and its mechanism
- 2.1 Introduction
- 2.2 The study on hypercrosslinked microporous materials with regular morphology
- 2.3 Preparation and formation mechanism of hypercrosslinked tubular nanofibers
- 2.4 Application of hypercrosslinked tubular nanofibers
- 2.5 Summary and prospect
- References
- Chapter 3 Design and preparation of self-driven BSA surface imprinted tubular nanofibers and their specific adsorption performance
- 3.1 Introduction
- 3.2 Surface protein imprinting technique
- 3.3 Concept of self-driven protein imprinting
- 3.4 Self-driven surface imprinted tubular carbon nanofibers
- 3.5 Self-driven surface imprinted magnetic tubular carbon nanofibers
- 3.6 Surface imprinted manganese dioxide-loaded tubular carbon fibers
- 3.7 Summary and prospect
- References
- Chapter 4 Functional carbon nano-material as efficient metal ion adsorbent from wastewater
- 4.1 Introduction
- 4.2 Functional group modifications and synthetic methods
- 4.3 Preparation and functionalization of adsorbents from biowastes
- 4.4 Preparation and functionalization of inorganic/organic adsorbents
- 4.5 Our contribution
- References
- Chapter 5 Preparation of carbon tubular nanofibers and their application for efficient enrichment of uranium from aqueous solution
- 5.1 Introduction
- 5.2 Synthesis of CNF
- 5.3 Applications of carbon tubular nanofibers
- 5.4 Our contribution
- References
- Chapter 6 Uranium adsorption property of carboxylated tubular carbon nanofibers enhanced chitosan microspheres
- 6.1 Introduction
- 6.2 Preparation and functionalization of tubular carbon nanofibers
- 6.3 Chitosan enhanced COOH-TCN for uranium adsorption
- References
- Chapter 7 Oil adsorption performance of tubular hypercrosslinked polymer and carbon nanofibers
- 7.1 Introduction
- 7.2 Introduction of oil-absorbing materials
- 7.3 Research progress of one-dimensional oil-absorbing materials
- 7.4 Tubular hypercrosslinked polymer
- 7.5 Length controllable hydrophobically modified tubular carbon nanofibers
- 7.6 Porous biomass tubular carbon fibers from platanus orientalis
- 7.7 Summary and outlook
- References
- Chapter 8 Fabrication of carboxylated tubular carbon nanofibers as anode electrodes for high-performance lithium‐ion batteries
- 8.1 Introduction
- 8.2 Introduction of anode materials for lithium-ion batteries
- 8.3 Research status of carbon nanotube-based anode materials
- 8.4 Preparation of carboxyl modified carbon nanotube anode materials
- 8.5 Fabrication of acidified tubular carbon nanofibers
- 8.6 Summary and prospect
- References
- Chapter 9 Tubular carbon nanofibers loaded with different MnO2: Preparation and electrochemical performance
- 9.1 Introduction
- 9.2 Research progress of MnO2-based anode materials
- 9.3 One-dimensional carbon nanomaterials and MnO2 composite electrode materials
- 9.4 Tubular carbon nanofibers loaded with worm-like MnO2
- 9.5 Tailoring carboxyl tubular carbon nanofibers/MnO2 composites
- 9.6 Summary and prospect
- References
- Chapter 10 Preparation and microwave absorption properties of tubular carbon nanofibers and magnetic nanofibers
- 10.1 Introduction
- 10.2 One-dimensional carbon nanomaterials
- 10.3 Microwave absorbers and electromagnetic stealth
- 10.4 1D carbon-based microwave absorbers
- 10.5 Tubular carbon nanofibers
- 10.6 Tubular magnetic carbon nanofibers with hierarchical pore structure
- 10.7 Helical/chiral biomass-derived 3D magnetic porous carbon fibers
- 10.8 Ultralight helical porous carbon fibers with CNTs-confined Ni nanoparticles
- 10.9 Summary and outlook
- References
- Chapter 11 Multiple composite tubular carbon nanofibers: Synthesis, characterization, and applications in microwave absorption
- 11.1 Introduction
- 11.2 1D multishell composite materials
- 11.3 Magnetic tubular fiber with multilayer heterostructure
- 11.4 Intertwined one-dimensional heterostructure obtained by MXene and MOF
- 11.5 Core-shell MnO2@NC@MoS2 nanowires
- 11.6 Summary and outlook
- Reference
- Chapter 12 Biomedical applications of multifunctional tubular nanofibers
- 12.1 Introduction
- 12.2 Tissue regeneration
- 12.3 Bio-sensing applications
- 12.4 Drug delivery applications
- 12.5 Antimicrobial applications
- 12.6 Applications in blood dialysis
- 12.7 Applications in medical devices
- 12.8 Other medical applications
- 12.9 Conclusion
- References
- Index
- Edition: 1
- Published: January 27, 2023
- No. of pages (Paperback): 358
- No. of pages (eBook): 358
- Imprint: Woodhead Publishing
- Language: English
- Paperback ISBN: 9780323990394
- eBook ISBN: 9780323990400
BZ
Baoliang Zhang
Baoliang Zhang is an elected Fellow of the Royal Society of Chemistry and works as a Professor at the School of Chemistry and Chemical Engineering at Northwestern Polytechnical University in Xian, PR China. He completed his Ph.D. in Chemistry and the Physics of Polymers at Northwestern Polytechnical University in 2013, where he also earned his M.S. and B.S degrees.
He has received numerous awards during his career including the Technological Invention Award in Science and Technology in the Shaanxi Province for his work on the Preparation and Application of Novel Functional Adsorbed Polymeric Materials. His research interests focus on the following three aspects: (1) Research on methods of porous material synthesis; (2) Morphology regulation and pore controlling mechanism of porous microspheres; (3) Application of porous materials in microwave absorption, protein purification, energy, water treatment, and other fields.Affiliations and expertise
Professor, School of Chemistry and Chemical Engineering, Northwestern Polytechnical UniversityMA
Mudasir Ahmad
Mudasir Ahmad is an Associate Professor at the School of Chemistry and Chemical Engineering at Northwestern Polytechnical University Xi'an, PR China. He earned his Ph.D. in Chemistry from Jamia Millia Islamia, India (2018), his M. Phil in Chemistry from Bundelkhand University, India (2012), and his M.Sc. in Chemistry from Barkatullah Vishwavidyalaya, India (2011). His current research focuses on synthesizing novel carbon-based materials for the adsorption and separation of precious metal ions and carbon metal-based composites for electromagnetic wave absorption.
Dr Ahmad’s research work spans several projects for the National Natural Science Foundation of China (on which he acts as PI), and other institutions.Affiliations and expertise
Associate Professor, School of Chemistry and Chemical Engineering, Northwestern Polytechnical University, ChinaRead Fabrication and Functionalization of Advanced Tubular Nanofibers and their Applications on ScienceDirect