Graphene, Nanotubes and Quantum Dots-Based Nanotechnology: Fundamentals and Applications: Woodhead Publishing Series in Electronic and Optical Materials
Editat de Yarub Al-Dourien Limba Engleză Paperback – 28 iul 2022
Graphene, nanotubes, and quantum dots-based nanotechnology review the fundamentals, processing methods, and applications of this key materials system. The topics addressed are comprehensive including synthesis, preparation, both physical and chemical properties, both accepted and novel processing methods, modeling, and simulation.
The book provides fundamental information on key properties that impact performance, such as crystal structure and particle size, followed by different methods to analyze, measure, and evaluate graphene, nanotubes, and quantum dots-based nanotechnology and particles. Finally, important applications are covered, including different applications of biomedical, energy, electronics, etc.
Graphene, nanotubes, and quantum dots-based nanotechnology is appropriate for those working in the disciplines of nanotechnology, materials science, chemistry, physics, biology, and medicine.
- Provides a comprehensive overview of key topics both on the experimental side and the theoretical
- Discusses important properties that impact graphene, nanotubes, and quantum dots performance, processing methods both novel and accepted and important applications
- Reviews the most relevant applications, such as biomedical, energy, electronics, and materials ones
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Specificații
ISBN-13: 9780323854573
ISBN-10: 0323854575
Pagini: 976
Ilustrații: 140 illustrations (40 in full color)
Dimensiuni: 152 x 229 mm
Greutate: 1.28 kg
Editura: ELSEVIER SCIENCE
Seria Woodhead Publishing Series in Electronic and Optical Materials
ISBN-10: 0323854575
Pagini: 976
Ilustrații: 140 illustrations (40 in full color)
Dimensiuni: 152 x 229 mm
Greutate: 1.28 kg
Editura: ELSEVIER SCIENCE
Seria Woodhead Publishing Series in Electronic and Optical Materials
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Cuprins
1.Introduction to graphene
2.Synthesis methods of graphene
3.Chemical properties of graphene
4.Analysis and characterization of graphene
5.Morphology and topography of graphene
6.Mechanical behavior of graphene conductive ink for wearable applications
7.Functionalized 2D materials
8.Graphene oxide
9.Graphene and optoelectronics
10.Synthesis, properties, and application of biomass-derived graphene-like material
11.Application of graphene in supercapacitors, batteries, and fuel cells
12.Introduction to carbon nanotubes and nanoribbons
13.Synthesis methods of nanotubes
14.Chemical properties of carbon nanotubes
15.Physical properties of carbon nanotubes and nanoribbons
16.Analysis and characterization of carbon nanotube
17.Morphology and topography of nanotubes
18.Functionalized nanotubes
19.Mechanical properties of nanotubes
20.Industrial applications of nanotubes
21.Comprehensive multiscale techniques to estimate the compressive strength of concrete incorporated with carbon nanotubes at various curing times and mix proportions
22.Carbon nanostructures and 2D transition metal dichalcogenides
23.Applications of nanotubes in preparation of polymer composite materials
24.Introduction to quantum dots
25.Synthesis methods of quantum dots
26.Optical properties of quantum dots
27.Chemical properties of quantum dots
28.Physical properties of quantum dots
29.Analysis and characterization of quantum dots
30.Morphology and topography of quantum dots
31.Industrial applications of quantum dots
32.Medical applications of quantum dots
33.Environmental impact of quantum dots
34.Quantum dots embedded ceramic materials—Synthesis and application
35.Quantum dots: policy and ethics
36.Quantum dots for modern display devices
2.Synthesis methods of graphene
3.Chemical properties of graphene
4.Analysis and characterization of graphene
5.Morphology and topography of graphene
6.Mechanical behavior of graphene conductive ink for wearable applications
7.Functionalized 2D materials
8.Graphene oxide
9.Graphene and optoelectronics
10.Synthesis, properties, and application of biomass-derived graphene-like material
11.Application of graphene in supercapacitors, batteries, and fuel cells
12.Introduction to carbon nanotubes and nanoribbons
13.Synthesis methods of nanotubes
14.Chemical properties of carbon nanotubes
15.Physical properties of carbon nanotubes and nanoribbons
16.Analysis and characterization of carbon nanotube
17.Morphology and topography of nanotubes
18.Functionalized nanotubes
19.Mechanical properties of nanotubes
20.Industrial applications of nanotubes
21.Comprehensive multiscale techniques to estimate the compressive strength of concrete incorporated with carbon nanotubes at various curing times and mix proportions
22.Carbon nanostructures and 2D transition metal dichalcogenides
23.Applications of nanotubes in preparation of polymer composite materials
24.Introduction to quantum dots
25.Synthesis methods of quantum dots
26.Optical properties of quantum dots
27.Chemical properties of quantum dots
28.Physical properties of quantum dots
29.Analysis and characterization of quantum dots
30.Morphology and topography of quantum dots
31.Industrial applications of quantum dots
32.Medical applications of quantum dots
33.Environmental impact of quantum dots
34.Quantum dots embedded ceramic materials—Synthesis and application
35.Quantum dots: policy and ethics
36.Quantum dots for modern display devices