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Enhanced doping effect on tuning structural phases of monolayer antimony
Jizhang Wang
, Teng Yang
, Zhidong Zhang
, Li Yang
Department of Physics
Research output
:
Contribution to journal
›
Article
›
peer-review
12
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Scopus citations
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Keyphrases
Doping Density
100%
Doping Effect
100%
Carrier Mobility
100%
Transport Performance
100%
Antimony
100%
Structural-phase State
100%
Adsorption
50%
Two Dimensional
50%
Single Element
50%
Surface Functional
50%
Large-scale Production
50%
Electronic Structure
50%
Semiconductors
50%
Optical Performance
50%
Two-dimensional Transition Metal Dichalcogenides
50%
Structural Engineering
50%
2D Semiconductors
50%
First-principles Calculations
50%
Atomistic Structure
50%
Orthorhombic Phase
50%
Electrostatic Doping
50%
Transition Metal Dichalcogenides
50%
Direct Band Gap
50%
Air Stability
50%
Hole Doping
50%
Semiconductor-metal Transition
50%
Indirect Band Gap
50%
Ground State Structure
50%
Hexagonal Phase
50%
Graphene Substrate
50%
Performance Stability
50%
Transition Potential
50%
Material Science
Density
100%
Monolayers
100%
Transition Metal Dichalcogenide
100%
Carrier Mobility
100%
Antimony
100%
Transition Metal
50%
Graphene
50%
Functional Surface
50%
Structural Design
50%
Physics
Energy Gaps (Solid State)
100%
Transition Metal Dichalcogenide
100%
Carrier Mobility
100%
Electrostatics
50%
Transition Metal
50%
Structural Engineering
50%
Graphene
50%
First Principle
50%
Ground State
50%