Engineering & Materials Science
Semiconductor materials
100%
Hydrides
70%
Optical properties
70%
Structural properties
66%
Epitaxial growth
63%
Density functional theory
60%
Energy gap
55%
Lattice constants
48%
Substrates
48%
Atoms
42%
Chemical analysis
36%
Chemical vapor deposition
35%
Heterojunctions
31%
Electronic properties
31%
Silicon
30%
Temperature
29%
Optoelectronic devices
27%
Diamonds
25%
Thermochemistry
23%
Epitaxial films
22%
Crystalline materials
22%
Phonons
22%
Oxides
21%
Molecules
21%
Doping (additives)
20%
Nucleation
20%
Lattice mismatch
18%
Band structure
18%
Molecular beam epitaxy
18%
Tuning
18%
Nanostructures
17%
Photoluminescence
17%
Fabrication
16%
Ternary alloys
16%
Isomers
15%
Nitrides
15%
Ground state
15%
Buffer layers
15%
Infrared radiation
15%
Atomic beams
15%
Stoichiometry
14%
Film growth
14%
Rutherford backscattering spectroscopy
14%
Boron
14%
Molecular structure
14%
Spectroscopic ellipsometry
14%
Defects
13%
Photodetectors
13%
Crystallinity
12%
Tin
12%
Chemical Compounds
Semiconductor
88%
Alloy
69%
Hydride
51%
Liquid Film
46%
Strain
46%
Optical Property
40%
Simulation
38%
Epitaxial Growth
34%
Band Gap
32%
Pressure
28%
Application
27%
Density Functional Theory
25%
Ellipsometry
23%
Optoelectronics
22%
Cubic Space Group
22%
Epitaxial Film
22%
Lattice Constant
22%
Dehydroxylation
21%
Nitride
19%
Thermochemistry
18%
Reaction Yield
17%
Electronic Band Structure
17%
Electronic Property
16%
Phonon
16%
Purity
16%
Surface
16%
Mineral
15%
Chemical Vapour Deposition
15%
Nucleation
13%
Buffer Solution
12%
Atomic Beam
12%
Equation of State
12%
Microstructure
12%
Crystallinity
11%
Diamond
11%
Energy
11%
Magnesium Hydroxide
11%
Boron Atom
11%
Tetrahedral Crystal
11%
Crystal Structure
10%
Substitution Reaction
10%
Noble Gas Atom
10%
Block Like Crystal
10%
Molecular Structure
10%
Tetragonal Space Group
10%
Dielectric Material
10%
Mixture
10%
Hexagonal Space Group
10%
Molecule
10%
Oxide
9%
Physics & Astronomy
hydrides
36%
buffers
23%
density functional theory
23%
epitaxy
22%
silicon
21%
optical properties
19%
nucleation
15%
chemistry
14%
templates
14%
planetary cores
14%
perovskites
14%
nitrides
14%
synthesis
13%
oxides
12%
atoms
12%
vapor deposition
12%
metal surfaces
12%
equations of state
11%
germanium
11%
routes
11%
ellipsometry
10%
transmission electron microscopy
10%
diamonds
10%
imides
10%
gases
10%
broadband
9%
hydrogen
9%
analogs
9%
thermochemistry
9%
rare gases
9%
breathing
9%
deuterium
9%
energy
9%
molecular beam epitaxy
9%
phonons
8%
students
8%
defects
8%
electron microscopy
8%
tuning
8%
tin
7%
simulation
7%
crystal structure
7%
electronics
7%
electrical properties
7%
Raman spectroscopy
7%
alloying
7%
lattice parameters
7%
substitutes
6%
photoexcitation
6%
crystallinity
6%