Engineering & Materials Science
Graphene oxide
100%
Graphene
94%
Chemical vapor deposition
33%
Plasmas
23%
Restoration
23%
Nitrogen
20%
Substrates
18%
Reduced Graphene Oxide
17%
Annealing
15%
Nucleation
15%
Monolayers
15%
Doping (additives)
15%
Single crystals
15%
Scanning tunneling microscopy
14%
Graphite
13%
Nitrogen plasma
13%
Crystals
13%
Growth temperature
13%
Crystallinity
12%
Electric fields
11%
Atoms
11%
Optical microscopy
11%
Hydrogen
11%
Organic semiconductor materials
10%
Aromatic compounds
10%
Nanosheets
9%
Carrier mobility
9%
Vapors
9%
Hydrazine
9%
Composite films
9%
Temperature
9%
Boron nitride
9%
Crystal orientation
9%
Magnesia
8%
Radiation
8%
Heterojunctions
8%
Specific surface area
8%
Oxide films
8%
Surface treatment
7%
Polyimides
7%
Position control
7%
Metal foil
7%
Electrostatics
6%
Catalysts
6%
Silica
6%
Grain boundaries
6%
Throughput
6%
Molecules
6%
Gases
6%
Oxygen
5%
Chemical Compounds
Graphene Oxide
67%
Graphene
44%
Electric Field
19%
Reduction
18%
Nitrogen
17%
Plasma
12%
Conductive Atomic Force Microscopy
10%
Annealing
9%
Nanosheet
9%
Single Crystalline Solid
9%
Graphite
8%
Pentacene
8%
Magnesium Oxide
7%
Scanning Tunneling Microscopy
7%
Nanoplatelet
7%
Fermi Level
7%
Work Function
7%
Monolayer
7%
Boron Nitride
7%
Compound Mobility
7%
Polyimide Macromolecule
6%
Aromatic Compound
6%
Surface Modification
6%
Conductivity
5%
Gas
5%
Nitrogen Atom
5%
Specific Surface Area
5%
Dielectric Material
5%
Hydrazine
5%
Electrical Conductivity
5%
Physics & Astronomy
graphene
72%
oxides
26%
vapor deposition
19%
nucleation
9%
nitrogen
9%
nitrogen atoms
8%
magnesium oxides
8%
single crystals
8%
electric fields
7%
restoration
7%
organic semiconductors
7%
microscopy
7%
moisture
6%
scanning tunneling microscopy
6%
boron nitrides
6%
polyimides
6%
carrier mobility
6%
crystals
6%
metal spinning
6%
oxide films
5%
foils
5%
radiation
5%
filaments
5%
transistors
5%
shock
5%
