Engineering & Materials Science
Graphene
100%
Monolayers
48%
Transition metals
47%
Heterojunctions
43%
Substrates
23%
Metals
22%
Boron nitride
22%
Chemical vapor deposition
19%
Doping (additives)
18%
Electronic properties
17%
Molybdenum
16%
Semiconductor materials
15%
Epitaxial growth
15%
Field effect transistors
15%
Tungsten
12%
Graphene transistors
12%
Organic chemicals
12%
Temperature
11%
Sapphire
11%
Intercalation
11%
Defects
10%
Ohmic contacts
9%
Transmission electron microscopy
9%
Charge density waves
9%
Nucleation
9%
Thin films
8%
Atoms
8%
Photoluminescence
8%
Optical properties
8%
Optoelectronic devices
8%
Transistors
7%
Silicon carbide
7%
Electronic equipment
7%
Scanning tunneling microscopy
7%
Phase transitions
7%
Raman spectroscopy
7%
Spectroscopy
7%
Phonons
6%
Valence bands
6%
Contact resistance
6%
Gallium
6%
Gallium nitride
6%
Fermi level
6%
Energy gap
6%
Diffusion barriers
6%
Crystalline materials
6%
Metallorganic chemical vapor deposition
6%
Electrons
6%
Excitons
6%
Characterization (materials science)
5%
Chemical Compounds
Graphene
53%
Monolayer
28%
Transition Element
25%
Boron Nitride
16%
Molybdenum Disulfide
16%
Semiconductor
13%
Liquid Film
12%
Chemical Vapour Deposition
11%
Electronic Property
10%
Metal
10%
Diselenide
10%
Epitaxial Growth
9%
Dielectric Material
9%
Tungsten
8%
Charge Density Wave
8%
Nucleation
7%
Application
7%
Contact Resistance
7%
Optoelectronics
7%
Silicon Carbide
7%
Field Effect
7%
Transmission Electron Microscopy
6%
Intercalation Compound
6%
Electron Beam Physical Vapour Deposition
5%
Annealing
5%
Surface
5%
Strain
5%
Nitride
5%
Compound Mobility
5%
Physics & Astronomy
graphene
49%
transition metals
21%
synthesis
16%
electronics
14%
boron nitrides
12%
metals
11%
electric contacts
11%
contact resistance
9%
molybdenum disulfides
8%
vapor deposition
8%
metalorganic chemical vapor deposition
7%
tungsten
7%
silicon carbides
6%
wafers
6%
transistors
6%
defects
6%
nucleation
6%
characterization
5%
performance
5%