Engineering
Metal Nanoparticles
100%
Descriptors
100%
Alloy
100%
Titania
100%
Thermodynamics
100%
Environmental Condition
66%
Monolayer
66%
Surface
66%
Titania (Tio2)
33%
Driving Force
33%
Reduced Form
33%
Forming
33%
Energetics
33%
Critical Role
33%
Nanoparticle
33%
Catalyst
33%
Substrates
33%
Formation Energy
33%
INIS
chemistry
100%
thermodynamics
100%
nanoparticles
100%
transition metals
100%
metals
100%
interactions
100%
titanium
100%
alloys
37%
surfaces
25%
layers
25%
stability
25%
atmospheres
12%
power
12%
substrates
12%
encapsulation
12%
particles
12%
range
12%
oxides
12%
interfaces
12%
titanium oxides
12%
heterogeneous catalysis
12%
formation heat
12%
phase diagrams
12%
catalysts
12%
data
12%
gases
12%
Keyphrases
Strong Metal-support Interaction
100%
SIMPLE Descriptor
100%
Thermodynamic Insights
100%
Transition Metal Nanoparticles
100%
Reduced Titania
50%
Alloy Formation
50%
Surface Alloying
50%
Oxide Overlayers
50%
PdAg
50%
Driving Force Analysis
50%
Ti2O3
50%
Thermochemical Data
50%
Material Science
Titanium Dioxide
100%
Transition Metal
100%
Metal
100%
Metal Nanoparticle
100%
Alloy
37%
Surface
25%
Monolayers
25%
Mechanical Strength
12%
Protective Atmosphere
12%
Oxide Compound
12%
Catalyst
12%
Heterogeneous Catalysis
12%
Nanoparticle
12%
Gas
12%
Particle
12%
Chemical Engineering
Thermodynamics
100%
Titanium
100%
Transition Metal
100%
Strong Metal-Support Interaction
100%
Metal Nanoparticle
100%
Titanium Dioxide
25%
Oxide
25%
Nanoparticle
25%