Monatomic Two-Dimensional Layers Modern Experimental Approaches for Structure, Properties, and Industrial Use Micro and Nano Technologies Series
Coordonnateur : Matsuda Iwao
Monatomic Two-Dimensional Layers: Properties, Fabrication and Industrial Applications provides a detailed examination on basic principles and state-of-the-art experimental techniques for monatomic layers on model surfaces, and in operating devices. Both conventional surface science and novel 2D materials science are included. The reader is guided through an introduction to the basic science of the field that is followed by advanced science specific to the system. Characterization techniques, the principles of state-of-the-art instruments for monatomic layers, and topics, including positron diffraction, time-resolved photoemission spectroscopy, surface transport measurements, and operando nanospectroscopy are also covered.
Researchers, graduate students and professionals will find this volume invaluable to acquire a deeper knowledge of the basic science, preparation, and experimental characterization techniques for 2D materials. Industrial technicians and operators will find it a useful overview of surface science related methods for fabrication and characterization of 2D materials.
1. Basics and Families of Monatomic Layers: Single-Layer 2D Materials 2. Surface Science: Single Atomic Layers on Crystal Surfaces 3. Interplay of Two Dimensional Lattices of Atomic Layers at the Junction 4. Diffraction: Determination of Atomic Structure 5. Advanced Photoelectron Spectroscopies 6. Transport Measurement: Carrier Transport 7. Operando Soft X-Ray Spectromicroscopic Measurement and the Use for High-Performance Devices and Circuits
Researchers, graduate students, and professionals such as industrial technicians and operators, in materials science, engineering and physics
- Gives comprehensive access to the properties of 2D materials, selected fabrication methods, and advanced characterization tools
- Discusses structure analysis by diffraction methods and ‘operando’ spectroscopy to provide direct information on device performance for industrial applications
- Written by authors who developed the techniques and have conducted extensive research on monatomic layers
Date de parution : 08-2018
Ouvrage de 232 p.
19x23.3 cm
Thèmes de Monatomic Two-Dimensional Layers :
Mots-clés :
2D atomic layers; Angle-resolved photoemission spectroscopy (ARPES); Atomic structure; Auger electron spectroscopy (AES); Carrier transport; Density functional theory (DFT) calculations; Electron band structure; Electron/spin dynamics; Field-effect transistor; Germanene; Graphene; Heterostructure; Incommensurate; Laser; Lattice match; Lattice mismatch; Low energy electron diffraction (LEED); Low-energy electron diffraction (LEED); Low-temperature; Metal-insulator transition; Micro-ARPES; Moiré; Nano-ARPES; Operando; Reflection high-energy electron diffraction (RHEED); Reflection high-energy positron diffraction (RHEPD); Scanning probe; Scanning tunneling microscopy (STM); Scanning tunneling spectroscopy (STS); Silicene; Spectromicroscopy; Spin polarization; Structure analysis; Superconductivity; Surface X-ray diffraction (SXRD); Surface rashba effect; Surface reconstructions; Surface science; Surface states; Surface structure; Surface superconductivity; Time-resolved ARPES; Transition metal dichalcogenides; Two-dimensional (2D) compounds; Two-dimensional materials; Ultrahigh vacuum; Van der Waals crystal; X-ray absorption; X-ray photoelectron; X-ray photoelectron spectroscopy (XPS); Xene
