71 research outputs found
A modified Schottky model for graphene-semiconductor (3D/2D) contact: A combined theoretical and experimental study
In this paper we carry out a theoretical and
experimental study of the nature of graphene/semiconductor
Schottky contact. We present a simple and parameter-free
carrier transport model of graphene/semiconductor Schottky
contact derived from quantum statistical theory, which is
validated by the quantum Landauer theory and first-principle
calculations. The proposed model can well explain
experimental results for samples of different types of
graphene/semiconductor Schottky contact.
INTRODUCTIO
A new perspective on the nature of graphene- semiconductor (3D/2D) Schottky contact: A combined theoretical and experimental approach
In this paper we carry out a theoretical and experimental study of the nature of graphene/ (3D/2D)-semiconductor Schottky contact. We use quantum statistical theory to derive a simple and parameter-free carrier transport model of graphene/ (3D/2D)-semiconductor Schottky contact, which is validated by the quantum Landauer theory and First-principle calculations. The proposed model can well explain experimental results for large samples of different types of graphene/ (3D/2D)-semiconductor Schottky contact
Carrier transport theory for twisted bilayer graphene in the metallic regime
10.1038/s41467-021-25864-1NATURE COMMUNICATIONS12
EXAMPLES OF TOPOLOGICAL SUPERCONDUCTIVITY IN CONDENSED MATTER PHYSICS
Ph.DDOCTOR OF PHILOSOPH
QUANTUM MONTE CARLO STUDY OF THE ELECTRON-ELECTRON INTERACTIONS IN MONOLAYER AND BILAYER GRAPHENE
Ph.DDOCTOR OF PHILOSOPH
HYDRODYNAMICS, ELECTRON-ELECTRON, AND ELECTRON-PHONON INTERACTION IN A 2D ELECTRON SYSTEM
Ph.DDOCTOR OF PHILOSOPHY (FOS
THEORETICAL AND EXPERIMENTAL INVESTIGATIONS OF SOME FACTORS INFLUENCING THE ENERGY LEVELS OF BILAYER AND MULTILAYER MOS2
Master'sMASTER OF SCIENC
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