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Simulating impurities and edges in graphene
Mikko Ervasti
Department of Applied Physics
Research output
:
Thesis
›
Doctoral Thesis
›
Collection of Articles
Overview
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Dive into the research topics of 'Simulating impurities and edges in graphene'. Together they form a unique fingerprint.
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Chemistry
Impurity
100%
Graphene
100%
Silicon
33%
Correlation
25%
Energy
16%
Application
16%
Band Gap
16%
Density Functional Theory
16%
Electron Spin
16%
Electronic State
16%
Nanoribbon
16%
Transport Property
16%
Quantum Dot
16%
Group
8%
Carbon
8%
Electron Particle
8%
First Principle
8%
Spectra
8%
Boron Nitride
8%
Nitrogen
8%
Adatoms
8%
Positron Annihilation
8%
Field Effect
8%
Hydrogen
8%
Tight Binding Model
8%
Simulation
8%
Electron Correlation Energy
8%
Charge Carrier
8%
Magnetic Property
8%
Scanning Tunneling Microscopy
8%
Spintronics
8%
Electronic Property
8%
Mechanical Strength
8%
Grain Boundary
8%
Thermal Conductivity
8%
Physics
Impurities
100%
Graphene
100%
Silicon
16%
Defects
16%
Simulation
16%
Correlation
16%
Gaps
16%
Density Functional Theory
16%
Transport Properties
16%
Quantum Dot
16%
Electronic Structure
8%
First-Principles
8%
Light
8%
Positron Annihilation
8%
Knowledge
8%
Spectra
8%
Hydrogen
8%
Grain Boundaries
8%
Spin
8%
Adatoms
8%
Field Effect Transistor
8%
Magnetic Properties
8%
Spintronics
8%
Nitrogen
8%
Scanning Tunneling Microscopy
8%
Openings
8%
Computational Method
8%
Atomic Structure
8%
Thermal Conductivity
8%
High Strength
8%
Carrier Mobility
8%
Electron Spin
8%
Cutting
8%
Material Science
Impurity
100%
Graphene
100%
Defect
16%
Density
16%
Quantum Dot
16%
Nanoribbon
16%
Mechanical Strength
8%
Electronics
8%
Electronic Structure
8%
Vacancy
8%
Boron Nitride
8%
Grain Boundary
8%
Magnetic Property
8%
Atomic Structure
8%
Scanning Tunneling Microscopy
8%
Charge Carrier
8%
Field Effect Transistors
8%
Electronic Property
8%
Nanoelectronics
8%
Thermal Conductivity
8%