Anisotropic 2D materials and devices /
This book presents recent progress in exploring anisotropic 2D materials including phosphorene and its arsenic alloys, monochalcogenides of group IV elements in the form of MX, low-symmetry transition-metal dichalcogenide (TMD) materials such as rhenium disulphide (ReS2) and rhenium diselenide (ReSe...
| مؤلفون آخرون: | |
|---|---|
| التنسيق: | Licensed eBooks |
| اللغة: | الإنجليزية |
| منشور في: |
Cambridge :
Royal Society of Chemistry,
2022.
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| سلاسل: | RSC nanoscience & nanotechnology.
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| الوصول للمادة أونلاين: | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=3410069 |
جدول المحتويات:
- Cover
- Contents
- Chapter 1 Introduction
- 1.1 Background and Motivation
- 1.2 Progress Towards the Study of 2D Anisotropy
- 1.3 An Overview of Anisotropic 2D Materials
- 1.3.1 Phosphorene
- 1.3.2 Transition Metal Dichalcogenides
- 1.3.3 Group IV Monochalcogenides
- 1.3.4 Main Group Element Compounds
- 1.3.5 Group IVB Trichalcogenides
- 1.3.6 Metal Chalcogenides
- 1.3.7 Xenes
- 1.3.8 2D Organics
- 1.4 Progress in Exploring In-plane Anisotropic Properties
- 1.4.1 Optical Anisotropies
- 1.4.2 Electronic Anisotropies
- 1.4.3 Other Anisotropies
- 1.5 Progress in Anisotropic Devices
- 1.5.1 Electronic and Optoelectronic Device Applications
- 1.5.2 Thermoelectric Device Applications
- 1.5.3 Piezoelectric and Ferroelectric Device Applications
- 1.5.4 Photostrictive Device Applications
- 1.5.5 Energy Storage Applications
- 1.5.6 Chemical Sensing Applications
- 1.6 Conclusion and Future Outlook
- References
- Chapter 2 Defect Engineering in Layered Black Phosphorus for Multi-Functional Optoelectronics
- 2.1 Introduction
- 2.2 Ambipolar Electronic and Optoelectronic Characteristics
- 2.3 Multifunctional Optoelectronic Applications
- 2.3.1 UV-A and UV-B Discriminating Photodetectors
- 2.3.2 Light Stimulated Artificial Synapses
- 2.3.3 Optoelectronic Boolean Logic
- 2.4 Summary
- References
- Chapter 3 Anisotropic Polaritons in Layered Two-dimensional (2D) Materials
- 3.1 Introduction
- 3.2 Real Space Imaging of Polaritons in vdW Crystals
- 3.3 Anisotropic Polaritons in 2D vdW Materials
- 3.4 Dispersion Relation for In-plane Anisotropic Polaritons
- 3.5 Hyperbolic Metasurfaces
- 3.6 Naturally In-plane Anisotropic Polaritons
- 3.7 Conclusion
- References
- Chapter 4 Highly Enhanced Many-body Interactions in Anisotropic 2D Semiconductors
- 4.1 Introduction
- 4.2 Fundamental Theory of 2D Materials
- 4.2.1 Reduced Dielectric Screening and Quantum Confinement
- 4.2.2 Crystal Structure of 2D Anisotropic Materials
- 4.2.3 Electronic Band Structures of 2D Anisotropic Materials
- 4.3 Anisotropic Physical Properties
- 4.3.1 Anisotropic Optical Properties
- 4.3.2 High Binding Energies of Many-body Complexes
- 4.3.3 Anisotropic Electronic and Thermal Transport
- 4.4 Engineering the Properties of Anisotropic 2D Material
- 4.5 Applications
- 4.5.1 Electronics and Optoelectronics
- 4.5.2 Prospects of Piezoelectric and Thermoelectric Applications
- 4.5.3 Devices Based on Strong Light-Matter Interactions in Phosphorene
- 4.6 Conclusions and Outlook
- Acknowledgements
- References
- Chapter 5 Organic Anisotropic 2D Materials for Next-generation Optoelectronics
- 5.1 2D Organic Materials
- 5.2 2D Organic Materials Fabrication
- 5.2.1 Vapor Growth
- 5.2.2 Solution Growth
- 5.3 Anisotropy Research of 2D Organic Crystals
- 5.3.1 Crystal Structure of Highly Aligned Organic Molecules
- 5.3.2 Anisotropic Optical Properties