2D Materials for Nanophotonics Nanophotonics Series
Coordonnateurs : Jhon Young Min, Lee Ju Han
2D Materials for Nanophotonics presents a detailed overview of the applications of 2D materials for nanophotonics, covering the photonic properties of a range of 2D materials including graphene, 2D phosphorene and MXenes, and discussing applications in lighting and energy storage. This comprehensive reference is ideal for readers seeking a detailed and critical analysis of how 2D materials are being used for a range of photonic and optical applications.
2. Topological Insulators and Applications
3. Black Phosphorus: Device and Application
4. Optical Properties of 2D Materials
5. Signal Processing Based on 2D Materials
6. THz Photonic Applications of 2D Materials
7. Biosensors Based on 2D Materials
8. Computational Simulations of 2D Materials
9. 2D Materials in Nonlinear Optics
Academics and R&D industry researchers in the fields of materials science and engineering
Ju Han Lee is Professor, School of Electrical and Computer Engineering, University of Seoul, South Korea. He is a Director of the Optical Society of Korea, and a Senior Member of the IEEE Photonics Society.
- Outlines the major photonic properties in a variety of 2D materials
- Demonstrates major applications in lighting and energy storage
- Explores the challenges of using 2D materials in photonics
Date de parution : 12-2020
Ouvrage de 412 p.
19x23.3 cm
Thème de 2D Materials for Nanophotonics :
Mots-clés :
?2D material; 2D materials; All-optic devices; All-optical device; Analytes; Biorecognition; Biosensing; Black phosphorus; Boron nitride; Carbon nanotube; Chemical vapor deposition; Density functional theory calculation; Epitaxial growth; Exciton physics; Fiber lasers; Graphene; Harmonics generation; Low-dimensional material; MXene 2D materials; Metadevice; Metamaterials; Mode-locking; Nanophotonics; Nonlinear optical properties; Nonlinear susceptibility; Nucleic acid; Optical Kerr effect; Optical limiting; Optical neural network; Optical properties of TI; Optical signal processing; Optical switch; Optoelectronics; Photoluminescence; Plasmonics; Q-switching; Raman dynamics; Saturable absorber; Saturable absorption; Signal processing; Solid state lasers; TMDC; TMMC; Terahertz spectroscopy; Thermo-optic effect; Topological insulator; Topological insulators; Transducer; Transition metal chalcogenides; Transition metal dichalcogenides; Two-dimensional materials; Ultrafast optics; Van der Waals heterostructures; Wave mixing