INIS
thin films
100%
air
100%
annealing
100%
kinetics
100%
crystallization
100%
nickelates
100%
growth
66%
phase transformations
66%
nucleation
66%
applications
33%
electrons
33%
performance
33%
comparative evaluations
33%
oxides
33%
x-ray diffraction
33%
surfaces
33%
correlations
33%
electronic structure
33%
transformations
33%
x-ray photoelectron spectroscopy
33%
transmission electron microscopy
33%
magnetrons
33%
sputtering
33%
high temperature
33%
energy-loss spectroscopy
33%
activation energy
33%
experimental data
33%
stabilization
33%
optical properties
33%
rare earths
33%
perovskites
33%
Material Science
Annealing
100%
Thermochromics
100%
Nickelate
100%
Thin Films
100%
Nucleation
66%
Optical Property
33%
Magnetron Sputtering
33%
Amorphous Material
33%
Crystalline Material
33%
Transmission Electron Microscopy
33%
X-Ray Diffraction
33%
Electronic Structure
33%
X-Ray Photoelectron Spectroscopy
33%
Electron Energy Loss Spectrometry
33%
Activation Energy
33%
Oxide Compound
33%
Nanocrystallites
33%
Keyphrases
Kinetic Approach
100%
Thermokinetics
100%
Air Annealing
100%
In Situ High-energy X-ray Diffraction
50%
Nickelate Thin Films
50%
Nickelates
50%
Homogeneous Processes
50%
Reversible Property
50%
Optical Property Measurement
50%
Thermochromic Performance
50%
Heterogeneous Process
50%
Rare-earth Nickelates
50%
Crystalline Phase Transformation
50%