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Width and Crystal Orientation Dependent Band Gap Renormalization in Substrate-Supported Graphene Nanoribbons
Neerav Kharche,
Vincent Meunier
Engineering Science and Mechanics
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Contribution to journal
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Article
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peer-review
43
Scopus citations
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Dive into the research topics of 'Width and Crystal Orientation Dependent Band Gap Renormalization in Substrate-Supported Graphene Nanoribbons'. Together they form a unique fingerprint.
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Engineering & Materials Science
Crystal orientation
85%
Density functional theory
23%
Electron energy levels
17%
Energy gap
70%
Excitation energy
26%
Graphene nanoribbon
100%
Nanostructures
18%
Screening
28%
Substrates
43%
Chemical Compounds
Application
4%
Band Gap
46%
Crystal Orientation
78%
Density Functional Theory
9%
Dielectric Material
13%
Energy Level Excitation
31%
Environment
8%
Graphene
43%
Nanomaterial
9%
Nanoribbon
71%
Reaction Yield
6%
Medicine & Life Sciences
Carbon Nanotubes
84%
Density Functional Theory
27%
Graphite
84%
Nanostructures
18%
Physics & Astronomy
approximation
8%
crystals
30%
density functional theory
11%
electronics
8%
energy levels
12%
excitation
7%
graphene
50%
screening
26%