Engineering & Materials Science
Annealing
22%
Characterization (materials science)
36%
Crystal growth
23%
Crystals
42%
Dielectric relaxation
17%
Doping (additives)
42%
Electric properties
21%
Energy gap
19%
Epitaxial films
44%
Epitaxial growth
57%
Femtosecond lasers
18%
Ferroelectric materials
49%
Growth temperature
26%
High temperature superconductors
16%
Hysteresis loops
23%
Ions
23%
Lasers
24%
Lattice constants
29%
Liquid phase epitaxy
100%
Magnetic properties
25%
Magnetization
17%
Magnetron sputtering
30%
Multiferroics
84%
Optical properties
19%
Oxidation
22%
Oxides
16%
Oxygen vacancies
20%
Photoluminescence
31%
Polarization
17%
Pulsed laser deposition
50%
Rare earth compounds
17%
Rare earths
32%
Seebeck coefficient
17%
Single crystals
50%
Sintering
16%
Sol-gel process
38%
Solid state reactions
27%
Solubility
27%
Sputter deposition
18%
Substitution reactions
19%
Substrates
70%
Tapes
22%
Temperature
56%
Textures
32%
Thick films
55%
Thin films
39%
Transition metals
19%
X ray diffraction
27%
X ray photoelectron spectroscopy
16%
Chemical Compounds
Absorptivity
15%
Ambient Reaction Temperature
13%
Annealing
14%
Antiferromagnetic
14%
Buffer Solution
17%
Conductivity
15%
Conductor
24%
Crystal Growth
10%
Crystalline Texture
29%
Dielectric Relaxation
12%
Dielectric Response
28%
Dioxygen
14%
Electrical Property
16%
Epitaxial Film
43%
Epitaxial Growth
45%
Grain Boundary
15%
Hysteresis
20%
Lanthanoid Atom
25%
Lattice Parameter
13%
Liquid Film
88%
Liquid Phase Epitaxy
82%
Magnetic Property
12%
Magnetization
16%
Magnetoresistance
9%
Magnetron Sputtering
27%
Oxidation Reaction
11%
Oxide
9%
Photoluminescence
11%
Piezoresponse Force Microscopy
13%
Polarization
20%
Polycrystalline Film
12%
Polycrystalline Solid
27%
Pulsed Laser Deposition
41%
Purity
20%
Seebeck Coefficient
16%
Single Crystalline Solid
26%
Sol Gel Process
18%
Solid State Reaction
15%
Solubility
10%
Sputter Deposition
16%
Superconductor
25%
Surface
11%
Tetragonal Space Group
13%
Thermoelectricity
18%
Tungstate
9%
Valence
9%
X-Ray Diffraction
15%
Physics & Astronomy
annealing
17%
barium
11%
buffers
20%
characterization
16%
charge transfer
7%
conduction
7%
conductivity
9%
conductors
19%
crystal growth
22%
crystals
17%
cuprates
12%
Curie temperature
6%
diffraction
12%
doped crystals
11%
electrical properties
10%
ferrimagnets
15%
ferroelectricity
15%
ferromagnetism
7%
fluorescence
6%
indium oxides
11%
ions
11%
lasers
16%
liquid phase epitaxy
43%
liquid phases
9%
magnetic properties
11%
magnetization
9%
magnetron sputtering
17%
niobates
12%
optical absorption
8%
optical properties
8%
oxidation
13%
oxygen
15%
piezoelectricity
6%
polarization
7%
pulsed laser deposition
19%
rare earth compounds
13%
rare earth elements
16%
room temperature
9%
single crystals
25%
solubility
13%
spinel
11%
tapes
16%
temperature
14%
textures
24%
thick films
27%
thin films
25%
tin oxides
10%
transition metals
9%
tungstates
10%
x rays
17%
