Engineering
Models
100%
Component Model
100%
Surface
75%
Supersaturation
75%
Thin Films
25%
Decreasing Temperature
25%
Equilibrium Condition
25%
High Temperature
25%
Surface Morphology
25%
Two Dimensional
25%
Temperature
25%
Maximum Concentration
25%
Highlight
25%
Existing Model
25%
Equilibrium Concentration
25%
Deposition Parameter
25%
Growth Mechanism
25%
INIS
films
100%
growth
100%
vapor deposited coatings
100%
surfaces
40%
oxygen
30%
vapors
30%
supersaturation
30%
equilibrium
30%
increasing
20%
islands
20%
morphology
20%
concentration
20%
deposition
20%
superconducting films
10%
width
10%
high temperature
10%
particles
10%
desorption
10%
nucleation
10%
thin films
10%
solids
10%
gases
10%
Physics
Model
100%
Vapor
100%
Growth
100%
Supersaturation
33%
Islands
22%
Temperature
22%
Oxygen
22%
Increasing
22%
Pressure
22%
Adatoms
22%
Desorption
11%
Nucleation
11%
Independent Variables
11%
Superconducting Film
11%
High Temperature
11%
Regime
11%
Particles
11%
Solids
11%
Impact
11%
Kinematics
11%
Foci
11%
Thin Films
11%
Width
11%
Material Science
Film
100%
Vapor
100%
Temperature
30%
Supersaturation
30%
Surface
30%
Morphology
20%
Materials
10%
Nucleation
10%
Surface Morphology
10%
Desorption
10%
Metallic Particle
10%
Solid
10%
Gas
10%
Thin Films
10%
Superconducting Film
10%
Chemical Engineering
Temperature
100%
Oxygen
66%
Desorption
33%
Keyphrases
Two-component Model
100%
Atomic Approach
14%
High-temperature Superconducting Film
14%
Earth and Planetary Sciences