Física y astronomía
thin films
79%
solar cells
38%
photovoltages
35%
evaporation
33%
electrical properties
30%
characterization
26%
buffers
24%
mass ratios
24%
conductivity
22%
Hall effect
20%
absorbents
20%
optical properties
19%
chemical reactions
19%
atomic force microscopy
19%
magnetron sputtering
18%
calcium oxides
18%
electrical resistivity
16%
probes
15%
x rays
15%
transmittance
14%
microscopy
14%
transport properties
13%
surface defects
13%
diffraction
13%
temperature
12%
absorptivity
11%
direct current
11%
sputtering
11%
glass
10%
conduction bands
10%
polarization (charge separation)
10%
energy bands
9%
grain boundaries
9%
baths
8%
spectroscopy
8%
impedance
7%
p-type semiconductors
7%
breast
7%
absorbers
7%
room temperature
7%
Auger spectroscopy
7%
platinum
7%
electron spectroscopy
7%
electrical measurement
7%
cancer
7%
photocurrents
6%
tantalum
6%
nanocrystals
6%
Ingeniería y ciencia de los materiales
Thin films
100%
Electric properties
37%
Evaporation
36%
Transport properties
28%
Temperature
22%
Buffer layers
21%
Conduction bands
21%
Structural properties
20%
Magnetron sputtering
19%
Energy gap
19%
Electronic properties
17%
Photocurrents
16%
Local density approximation
15%
Band structure
13%
Substrates
13%
Sputtering
12%
Electric Conductivity
12%
High resolution transmission electron microscopy
12%
Solar cells
11%
Phonons
11%
Film growth
11%
Spintronics
11%
Optical properties
11%
Wetlands
11%
Atomic force microscopy
11%
Composting
11%
Multilayer films
11%
Chemical reactions
9%
Superconducting materials
9%
Microscopic examination
9%
Surface measurement
9%
Bioreactors
9%
Gallium compounds
8%
Magnetic fields
8%
Platinum
8%
Photonics
8%
Spectroscopy
8%
Superconducting transition temperature
8%
Defects
7%
Crystalline materials
7%
Transmission electron microscopy
7%
Lymphocytes
7%
Electrons
7%
Substitution reactions
7%
Molecules
7%
Cells
7%
Biomass
6%
Zinc Selenide
6%
Valence bands
6%
Atmospheric humidity
6%
Compuestos químicos
Thin films
83%
Transport properties
23%
Temperature
22%
Conduction bands
21%
Evaporation
21%
Structural properties
20%
Magnetron sputtering
19%
Electric properties
19%
Diluted magnetic semiconductors
17%
Buffer layers
17%
Substrates
17%
Local density approximation
15%
Sputtering
15%
Energy gap
12%
gallium arsenide
12%
Phonons
11%
Film growth
11%
Spintronics
11%
Electronic properties
11%
Optical properties
11%
Multilayer films
11%
Hydrofluoric Acid
11%
Porous silicon
11%
Photocurrents
10%
Magnetism
10%
Chemical reactions
9%
Superconducting materials
9%
Microscopic examination
9%
Surface measurement
9%
Gallium compounds
8%
Photonics
8%
Electric Conductivity
8%
Spectroscopy
8%
High resolution transmission electron microscopy
8%
Superconducting transition temperature
8%
Durapatite
8%
Platinum
7%
Defects
7%
Transmission electron microscopy
7%
Substitution reactions
7%
Cells
7%
Atomic force microscopy
6%
Buffers
6%
Zinc Selenide
6%
Derivatives
6%
Electrons
5%
Density functional theory
5%
Lasers
5%