Ingeniería y ciencia de los materiales
Laser beam effects
100%
Graphene oxide
97%
Coatings
50%
Substrates
47%
Laser damage
19%
Thermal load
17%
Crystallite size
16%
Fusion reactors
14%
Lasers
12%
Film thickness
12%
Metal melting
9%
Raman spectroscopy
7%
Electrophoresis
7%
Atomic force microscopy
7%
Protective coatings
6%
X ray photoelectron spectroscopy
6%
Crystallinity
6%
Topography
6%
Restoration
5%
Melting
5%
Plasmas
5%
Scanning electron microscopy
4%
Electric potential
2%
Hot Temperature
2%
Física y astronomía
graphene
54%
damage
47%
coatings
44%
irradiation
42%
oxides
41%
lasers
29%
fusion reactors
12%
heat
11%
crystallites
9%
film thickness
9%
melting
8%
protective coatings
6%
laser damage
6%
electrophoresis
6%
energetic particles
6%
ramps
6%
restoration
5%
topography
5%
crystallinity
4%
Raman spectroscopy
4%
photoelectron spectroscopy
4%
dissipation
4%
occurrences
4%
disorders
4%
atomic force microscopy
4%
scanning electron microscopy
3%
estimates
3%
electric potential
3%
approximation
2%
metals
2%
x rays
2%
Química
Graphene Oxide
53%
Coating Agent
40%
Fusion Reactor Plasma
12%
Heat
11%
Liquid Film
9%
Metal Melting
8%
Crystallite
8%
Electrophoretic Deposition
6%
Dissipation
5%
Time
5%
Electrophoresis
4%
Melting
4%
Disorder
4%
Protective
4%
Atomic Force Microscopy
4%
Crystallinity
3%
Raman Spectroscopy
3%
Voltage
3%
X-Ray Photoelectron Spectroscopy
3%
Scanning Electron Microscopy
3%
Reduction
2%