二维材料和异质结构(Two Dimensional Materials and Heterojunctions)

Two Dimensional Materials and Heter Ojunctions
CONTENTS
Chapter 1Graphene, Hexagonal Boron Nitride, and Heterostructure:
Properties and Applications
1.1 Introduction to the 2D materials
1.1.1 Introduction to graphene
1.1.2 Introduction to graphenelike 2D crystals
—hexagonal boron nitride
1.1.3 Introduction of graphene/hBN,a 2D composite
1.2 Graphene
1.2.1 Structure of graphene
1.2.2 Preparation of graphene
1.2.3 Physical properties of graphene
1.2.4 Raman spectrum of graphene
1.32 D hBN
1.3.1 Structure of hBN
1.3.2 Preparation of hBN
1.3.3 Physical properties of hBN
1.3.4 Raman spectroscopy of hBN
1.4 Composite structure of graphene/hBN
1.4.1 Research rise and process of graphene/hBN
heterojunction structure
1.4.2 Composite mode structure of graphene/hBN
1.4.3 Preparations of graphene/hBN heterostructures
1.4.4 The properties of graphene/hBN heterostructures
1.4.5 Potential applications of graphene/hBN
heterostructure
1.5 Summary and outlook
References
Chapter 2Electrical Properties and Recent Electrical Applications of
Graphene, hBN, Graphene/hBN Heterostructures
2.1 Graphene
2.1.1 The structure of 2D graphene
2.1.2 The electronic structure of graphene
2.1.3 The electronic property of graphene
2.1.4 The recent application of graphene in electronic
property
2.2 hBN
2.2.1 The structure of 2D hBN
2.2.2 The electronic structure of hBN
2.2.3 The electronic property of hBN
2.2.4 The recent electrical application of hBN
2.3 Graphene/hBN heterostructures
2.3.1 The structure of graphene/hBN heterostructures
2.3.2 The electronic structure of graphene/hBN
heterostructures
2.3.3 The electronic properties of graphene/hBN
2.3.4 The recent application progress of graphene/
hBN heterostructure in electronics
2.4 Summary and outlook
References
Chapter 3Optical, Photonic and Optoelectronic Properties of
Graphene, hNB and Their Hybrid Materials
3.1 Introduction to graphene
3.1.1 Graphene’s structure, electronic band
3.1.2 Electronic properties of graphene, which impact the
optical properties
3.1.3 Optical properties of graphene
3.1.4 The application of photonics and optoelectronics
3.2 Introduce of hBN
3.2.1 The electronic band structure of 2D hBN
3.2.2 The optical properties of hBN
3.2.3 Potential applications of hBN
3.3 The introduce of graphene/hBN van der Waals heterostructure
3.3.1 The structure of graphene/hBN van der Waals
heterostructure
3.3.2 The energy bandgap structure of graphene/hBN van
der Waals heterostructure
3.3.3 The optical and photoelectric properties of graphene/
hBN van der Waals heterostructure
3.3.4 Potential applications of graphene/hBN heterostructures
in optical property
3.4 Summary and prospect
References
Chapter 4Optoelectronic Properties and Applications of GrapheneBased
Hybrid Nanomaterials and van der Waals Heterostructure
4.1 Introduction
4.2 The optoelectronic properties of graphene
4.2.1 The intrinsic optoelectronic properties of graphene
nanomaterials
4.2.2 The optoelectronic properties of hybrid graphene or
heterostructure
4.3 Recent optoelectronic applications of graphene nanomaterials
4.3.1 Optoelectronic modulator (OM)
4.3.2 Photodetector
4.3.3 Graphenebased lightemitting diodes(LEDs) and
solar cells
4.3.4 Graphenebased solar cell
4.3.5 Graphenebased ultrafast lasers
4.3.6 Graphenebased broadband image sensor array
4.4 Summary and outlook
References
Chapter 5Magnetics and Spintronics of 2D Graphene/hBN Composite
Materials
5.1 Graphene
5.1.1 Lattice structure and electronic structure
5.1.2 The properties of graphene in magnetics and
spintronics
5.1.3 The application of graphene in magnetic properties and
spin electronics
5.2 Hexagonal boron nitride
5.2.1 Lattice structure and electronic structure
5.2.2 Magnetic properties and spintronic of hBN
5.2.