Chemical Compounds
Graphite
100%
boron nitride
26%
Band structure
23%
Heterojunctions
23%
Valence bands
18%
Magnetic fields
17%
Monolayers
17%
Electrons
15%
Raman scattering
14%
Photoemission
13%
Rhenium
13%
Photoelectron spectroscopy
13%
Energy gap
13%
Crystals
11%
Fermi level
8%
Transition metals
8%
Inelastic scattering
8%
Substrates
7%
Fermi surface
7%
Carrier concentration
6%
Quantum efficiency
6%
Light scattering
6%
Quantum Hall effect
5%
Superlattices
5%
Photons
5%
Conduction bands
5%
Electronic properties
5%
Polarization
5%
Infrared absorption
5%
Phonons
5%
Engineering & Materials Science
Graphene
80%
Band structure
23%
Heterojunctions
22%
Boron nitride
19%
Electrons
19%
Valence bands
18%
Magnetic fields
17%
Monolayers
16%
Raman scattering
14%
Energy gap
13%
Rhenium
11%
Photoemission
11%
Fermi level
8%
Crystals
8%
Inelastic scattering
8%
Substrates
7%
Photoelectron spectroscopy
7%
Fermi surface
7%
Transition metals
7%
Carrier concentration
6%
Quantum efficiency
6%
Polarons
6%
Light scattering
6%
Quantum Hall effect
5%
Superlattices
5%
Photons
5%
Conduction bands
5%
Electronic properties
5%
Polarization
5%
Infrared absorption
5%
Nanoribbons
5%
Phonons
5%
Physics & Astronomy
graphene
74%
boron nitrides
20%
electronics
12%
magnetic fields
12%
asymmetry
11%
photoelectric emission
10%
interlayers
9%
valence
9%
rhenium
9%
energy
8%
valleys
8%
electrons
7%
crystals
7%
flakes
7%
Raman spectra
7%
infrared absorption
6%
symmetry
6%
topology
5%
signatures
5%
spectroscopy
5%
