Ingeniería y ciencia de los materiales
Mechanical alloying
100%
Nanoparticles
69%
Titanium dioxide
55%
X ray diffraction
47%
Carbides
46%
Powders
42%
Transmission electron microscopy
40%
High resolution electron microscopy
38%
Silica
28%
Solid solutions
26%
Sintering
26%
Phase transitions
25%
Scanning electron microscopy
22%
Cobalt
22%
TiO2 nanoparticles
20%
High resolution transmission electron microscopy
19%
Nanostructures
19%
Structural properties
18%
Martensitic transformations
18%
Nanotubes
18%
Crystallite size
17%
Palladium
17%
Carbon
16%
Crude oil
16%
Ostwald ripening
15%
Heat treatment
15%
Intermetallics
14%
Chemical analysis
14%
Structural analysis
14%
Heating
13%
Temperature
13%
Impregnation
13%
Decomposition
13%
Microstructural evolution
13%
Physisorption
12%
Isomerization
12%
Nanofibers
12%
Nanocatalysts
12%
Electron microscopy
12%
Catalysts
11%
Nanospheres
11%
Optical correlation
11%
Exfoliation (materials science)
11%
Particle size
11%
Microwave irradiation
10%
Coarsening
10%
X-Ray Emission Spectrometry
10%
Hot Temperature
10%
Characterization (materials science)
10%
Yttrium oxide
10%
Química
Mechanical Alloying
91%
Nanoparticle
32%
Alloy
27%
Sintering
27%
Titanium Dioxide
27%
Rutile
22%
Martensitic Transformation
21%
X-Ray Diffraction
20%
Scanning Electron Microscopy
17%
Transmission Electron Microscopy
17%
Chemical Element
16%
Solid Solution
15%
Time
15%
Intermetallic Compound
15%
Heat Treatment
13%
Band Gap
12%
Ambient Reaction Temperature
12%
Electrical Resistance
12%
Ostwald Ripening
11%
Ball Mill
11%
Microwave
11%
Crystallite
11%
Desulfurization
10%
Bimetallic Nanoparticle
10%
Heat
10%
Electron Microscopy
9%
Quasicrystallinity
9%
Cooling
9%
Melting
9%
Decomposition
9%
Carbon Atom
8%
Energy
8%
Purity
8%
Nanotube
8%
Dibenzothiophene
8%
Hydrodesulfurization
8%
Nanofiber
8%
Catalyst
7%
Cyclohexene
7%
Exfoliation
7%
Impregnation
7%
Decolorization
7%
Superlattice
7%
Acetyl
7%
Isomerization
6%
Nanosphere
6%
Microstructure
6%
Magnetic Hysteresis
6%
Plasma
6%
Length
6%
Física y astronomía
alloying
35%
nanoparticles
27%
carbides
27%
anatase
26%
synthesis
23%
characterization
19%
rutile
18%
sintering
18%
cobalt
17%
phase transformations
12%
Ostwald ripening
12%
transmission electron microscopy
11%
intermetallics
10%
yttrium oxides
9%
sparks
9%
electron microscopy
9%
catalytic activity
9%
decomposition
8%
temperature effects
8%
diffraction
8%
isomerization
8%
heating
8%
heat treatment
8%
carbon
7%
x rays
7%
scanning electron microscopy
7%
martensitic transformation
7%
melting
7%
stoichiometry
6%
nanotubes
6%
solid solutions
6%
heat
6%
dyes
6%
graphite
6%
routes
5%
graphene
5%
silicon dioxide
5%
chemical properties
5%
energy
5%