Chemical Compounds
Nanoribbon
71%
Work Function
71%
Graphene
43%
Strain
43%
Decoration
20%
Core Level
14%
Chemical Passivation
12%
Surface
9%
Dipole
6%
Electronic Property
5%
Band Gap
4%
Chemical Transformation
3%
Density Functional Theory
3%
Hydrogen
3%
Dioxygen
3%
Energy
2%
Carbon Atom
2%
Engineering & Materials Science
Graphene nanoribbon
100%
Tensile strain
25%
Core levels
21%
Passivation
16%
Nanoribbons
12%
Fermi level
11%
Electronic properties
10%
Density functional theory
10%
Energy gap
7%
Structural properties
7%
Atoms
7%
Oxygen
5%
Hydrogen
5%
Carbon
5%
Medicine & Life Sciences
Graphite
84%
Carbon Nanotubes
84%
Hydrogen
7%
Carbon
6%
Oxygen
4%
Physics & Astronomy
graphene
50%
engineering
45%
passivity
12%
shift
12%
coverings
5%
density functional theory
5%
trends
5%
dipoles
5%
carbon
4%
hydrogen
4%
oxygen
4%
electronics
3%
atoms
3%
energy
2%