Ingeniería y ciencia de los materiales
Triethanolamine
100%
Nitrates
76%
Characterization (materials science)
53%
Energy gap
34%
Electron transitions
29%
Quantum confinement
28%
Ions
28%
Dangling bonds
27%
Oxidation
27%
Lead oxide
25%
High resolution transmission electron microscopy
25%
Binding energy
24%
Photoelectrons
23%
Raman spectroscopy
20%
X ray diffraction analysis
19%
Fourier transform infrared spectroscopy
18%
X ray photoelectron spectroscopy
18%
Surface morphology
17%
Stretching
16%
Crystalline materials
16%
Thermodynamic stability
15%
Thin films
14%
Chemical analysis
9%
Química
Nanofilm
73%
Triethanolamine
72%
Ammonium Nitrate
71%
Cubic Space Group
50%
Band Gap
23%
Lead Oxide
20%
Dangling Bond
20%
Basic Solution
18%
Deposition Technique
16%
Photoelectron
15%
Transmittance
15%
Grain Size
14%
Oxidation Reaction
13%
Binding Energy
13%
Ion
12%
Raman Spectroscopy
11%
Monoclinic Space Group
11%
X-Ray Photoelectron Spectroscopy
10%
Thermodynamics
9%
Fourier Transform Infrared Spectroscopy
8%
Purity
7%
X-Ray Diffraction
7%
Liquid Film
7%
Energy
7%
pH Value
6%
Surface
4%
Física y astronomía
ammonium nitrates
91%
baths
55%
characterization
34%
oxidation
22%
lead oxides
21%
nitrates
17%
ions
14%
infrared spectroscopy
13%
x rays
13%
photoelectrons
13%
binding energy
13%
Raman spectroscopy
13%
transmittance
12%
photoelectron spectroscopy
12%
grain size
11%
traps
11%
thermodynamics
10%
transmission electron microscopy
10%
high resolution
9%
shift
9%
kinetics
9%
diffraction
8%
thin films
7%