Principle of spin LED

For more info about our services contact : help@bestpfe.com

Table of contents

Chapter 1: Development and application of two-dimensional materials
1.1 Graphene
1.1.1 Crystal Structure
1.1.2 Electrical properties
1.2 Transition Metal Dichalcogenides (TMDs)
1.2.1 Crystal Structure
1.2.2 Electrical and Photoelectric Properties
1.3 In-plane anisotropy of two-dimensional materials
1.3.1 Crystal structure
1.3.2 Photoelectric Properties
1.4 Application of two-dimensional materials
1.4.1 Spin Light-Emitting Diodes (LED)
1.4.2 Spin photodiode
1.4.3 Linear Polarized Photodetection
1.5 Summary
Chapter 2: Experimental techniques
2.1 Synthesis of two-dimensional materials
2.1.1 Chemical Vapor Deposition (CVD)
2.1.2 Chemical Vapor Transport (CVT)
2.1.3 Mechanical Exfoliation
2.2 Synthesis of metal film
2.2.1 Molecular beam epitaxy (MBE)
2.2.2 Magnetron sputtering
2.3 Micro-nano processing technology
2.3.1 Electron Beam Lithography (EBL)
2.3.2 UV lithography
2.4 Basic characteristic parameters
2.4.1 Magnetic Film
2.4.2 Photodetectors
Chapter 3: Ta/CoFeB/MgO on full coverage monolayer MoS2
3.1 Background
3.2 Heterojunction Processing and characterizations
3.2.1 Heterojunction Processing
3.2.2 STEM-EELS
3.3 Experimental results and discussion
3.3.1 Monolayer MoS2 characterization
3.3.2 The Heterojunction of MoS2/MgO/CoFeB/Ta
3.3.3 The Heterojunction of MoS2/MgO/CoFeB/Pt
3.3.4 The Heterojunction of MgO/CoFeB/Ta
3.4 First-principles calculation
3.4.1 Calculation method
3.4.2 MoS2/7ML MgO/7ML Fe Heterojunction
3.4.3 MoS2/3ML MgO/7ML Fe Heterojunction
3.4.4 Band structure of Fe/MgO/MoS2
3.5 Conclusion
Chapter 4: GeAs based polarized photodetector
4.1 Background
4.2 GeAs crystal structure
4.3 Characterization of samples and devices
4.3.1 Transmission electron microscope (TEM)
4.3.2 Angle-resolved polarized Raman spectroscopy
4.3.3 Polarization absorption spectrum of GeAs
4.4 Photoelectric properties
4.4.1 Ordinary photoelectric properties
4.4.2 Polarized photoelectric properties
4.5 First-principles calculation
4.5.1 Band structure calculation
4.5.2 Calculation of absorption spectrum
4.6 Conclusion
Chapter 5: IV-VI compounds based Photodetector
5.1 ZnSnS alloy based Photodetector
5.1.1 Crystal structure and characterization
5.1.2 Optical properties
5.1.3 Calculations
5.2 SnS based Photodetection
5.2.1 Crystal structure and characterization
5.2.2 Optical properties
5.2.3 Calculations
5.3 Conclusion
Chapter 6: Summary and Prospects
6.1 Summary
6.2 Prospects
Reference