Van der Waals Heterostructures

Dr. Yue Zhang is the academician of Chinese academic society and a full professor of material physics at University of Science and Technology Beijing, China. He has committed to make systematic and innovative contributions to low-dimensional semiconductor materials, functional nanodevices, and nanoscale failure and service behaviors. He has authored over 400 scientific publications and has been nominated as the chief scientist of Major National Scientific Research Projects in China. He won the second prize of the national award for natural sciences. Dr. Zheng Zhang currently is associated professor of School of materials science and engineering in the University of Science and Technology Beijing. His research mainly focuses on two-dimensional atomic crystal materials, nanoelectronics and optoelectronic devices and Low dimensional nano material energy converters. He has published more than 100 peer-reviewed articles in international journals with H-index 35.

1 THE 2D SEMICONDUCTOR LIBRARY
1.1 Introduction
1.2. Emerging 2DLMs for Future Electronics

2 THE 2D SEMICONDUCTOR SYNTHESIS AND PERFORMANCES
2.1 Exfoliation
2.2 Chemical Vapor Deposition

3 THE VDW HETEROSTRUCTURE CONTROLLABLE FABRICATIONS
3.1 Wet Transfer
3.2 Controllable Selective Synthesis
3.3 Dry Transfer

4 THE MIXED-DIMENSIONAL VDW HETEROSTRUCTURES
4.1 Categorization of Mixed-dimensional VdWHs
4.2 Strategies for Constructing Mixed-dimensional VdWHs
4.3 Electronic and Sensing Applications
4.4 Optoelectronic and Photonic Applications
4.5 Energy Applications
4.6 Conclusions

5 THE VDW HETEROSTRUCTURE INTERFACE PHYSICS
5.1 Band Alignment and Charge Transfer in VdWHs
5.2 Magnetic Coupling in VdWHs
5.3 Moiré Pattern
5.4 VdWHs for Protection
5.5 Characterization Techniques for VdWHs

6THE VDW HETEROSTRUCTURE MULTI-FIELD COUPLING EFFECTS
6.1 Introduction
6.2 The Multi-Field Coupling Effect Characterization for 2D Van der Waals Structures
6.3 The Multi-Field Modulation for Electrical Properties of 2D Van der Waals Structures
6.4 The Multi-Field Modulation for Optical Properties of 2D Van der Waals Structures

7 VDW HETEROSTRUCTURE ELECTRONICS
7.1 Van der Waals PN Junctions
7.2 Van der Waals Metal-semiconductor Junctions
7.3 Field-effect Transistor
7.4 Junction Field Effect Transistor
7.5 Tunneling Field-effect Transistor
7.6 Van der Waals Integration

8 VDW HETEROSTRUCTURE OPTOELECTRONICS
8.1 Photodetectors
8.2 Light Emission
8.3 Optical Modulators

9 VDW HETEROSTRUCTURE ELECTROCHEMICAL APPLICATIONS
9.1 Solar Energy
9.2 Van der Waals Heterostructure Application on Hydrogen Energy
9.3 Battery
9.4 Catalyst
9.5 Biotechnology

10 PERSPECTIVE AND OUTLOOK
10.1 Overall Development Status of 2D Materials
10.2 Compatibility between 2D van der Waals device processing and silicon technology
10.3. Promising Roadmap of Van der Waals heterostructure devices [Medium term: 5 years, Long term: 5-10 years]
10.4 Promising Roadmap of Optoelectronic Device
10.5 Conclusion and Prospect