Engineering & Materials Science
Photoluminescence
100%
Raman scattering
68%
Liquid phase epitaxy
53%
Crystalline materials
41%
Arsenic
38%
Characterization (materials science)
37%
Temperature
29%
Tellurium
28%
Epitaxial films
26%
Metallorganic chemical vapor deposition
25%
Substrates
25%
Doping (additives)
25%
Optical properties
24%
Excitons
19%
Oxygen
19%
Stoichiometry
18%
Nanofibers
17%
Thin films
16%
Zinc
16%
Vapors
15%
Raman spectroscopy
15%
Energy gap
15%
X ray diffraction
15%
Atomic layer deposition
14%
Energy dispersive spectroscopy
14%
Physical properties
14%
Impurities
14%
III-V semiconductors
14%
Hole concentration
14%
Nanocrystals
14%
Structural properties
14%
Semiconductor materials
13%
Carrier concentration
13%
Quantum confinement
13%
Epilayers
13%
Growth temperature
13%
Oxygen vacancies
12%
Epitaxial growth
12%
Cadmium sulfide
11%
X-Ray Emission Spectrometry
11%
Phase transitions
11%
Crystal growth from melt
11%
Chemical analysis
11%
Single crystals
11%
Spectroscopy
10%
Ions
10%
Sulfur
10%
Electrospinning
10%
Carbon
10%
Titanium dioxide
10%
Physics & Astronomy
characterization
67%
liquid phase epitaxy
44%
photoluminescence
41%
Raman spectra
34%
baths
31%
arsenic
24%
tellurium
23%
x rays
21%
thermal diffusivity
19%
metalorganic chemical vapor deposition
18%
spectroscopy
17%
optical properties
15%
diffraction
14%
wurtzite
14%
temperature
13%
cadmium sulfides
12%
zinc
11%
nanocrystals
11%
thin films
11%
Raman spectroscopy
11%
oxygen
11%
sulfur
11%
stoichiometry
10%
methodology
10%
metal oxides
10%
chemical attack
10%
atomic layer epitaxy
10%
physical properties
9%
synthesis
9%
filaments
9%
absorptivity
9%
pigments
8%
anatase
8%
annealing
8%
optical absorption
8%
excitons
8%
vapors
8%
impurities
7%
transmission electron microscopy
7%
room temperature
7%
vibration mode
7%
nanoparticles
7%
shift
7%
liquids
6%
quaternary alloys
6%
transmittance
6%
high resolution
6%
stimulation
6%
pellets
6%
quantum dots
6%
Chemistry
Liquid Phase Epitaxy
50%
Photoluminescence
47%
Photoluminescence Spectrum
23%
Raman Spectrum
20%
Epitaxial Film
18%
Liquid Film
15%
Band Gap
14%
Semiconductor
14%
Nanofiber
13%
Optical Property
12%
Molecular Layer
12%
Radiative Transition
12%
Dioxygen
12%
Energy
11%
Reaction Stoichiometry
11%
Epitaxial Growth
11%
Deposition Technique
10%
Grain Size
10%
Debye-Scherrer
10%
Nanofilm
9%
Hole Concentration
9%
Raman Spectroscopy
9%
Hexagonal Space Group
9%
Unsaturated Fatty Acid
9%
Ambient Reaction Temperature
9%
Nanocrystal
9%
X-Ray Diffraction
8%
Energy Dispersive X-Ray Spectroscopy
8%
Electric Field
8%
Arsine
8%
Cadmium Sulfide
8%
Bound Exciton
8%
Alloy
7%
Solid Solution
7%
Atomic Layer Epitaxy
7%
Quantum Dot
7%
Annealing
7%
Transmittance
7%
Cubic Space Group
6%
Microwave
6%
Fatty Acid
6%
Exciton
6%
Application
5%
Chemical Vapour Deposition
5%
Thermal Wave
5%
Valence Band
5%
Modification
5%
Photoluminescence Spectroscopy
5%
Secondary Ion Mass Spectroscopy
5%
IR Spectroscopy
5%