Engineering
Alloy
100%
Alloying
100%
Electroreduction
100%
Production
66%
Polycrystalline
66%
Performance
66%
Catalyst
66%
Thin Films
33%
Active Site
33%
Significant Increase
33%
Palladium
33%
Renewable Energy Resource
33%
Infrared Absorption
33%
Coverage
33%
Adsorption
33%
Surface
33%
Binding Energy
33%
Exchange Current Density
33%
Fuel
33%
Surface Site
33%
Surface Coverage
33%
Reduction
33%
Product Analysis
33%
Material Science
Alloying
100%
Surface
100%
Alloy
100%
Hydrogen Evolution
66%
Fuel
33%
Absorption Spectroscopy
33%
Materials
33%
Palladium
33%
Density
33%
Cyclic Voltammetry
33%
Catalyst
33%
Metal
33%
Electrode
33%
Adsorption
33%
Morphology
33%
Thin Films
33%
Catalyst Activity
33%
INIS
hydrogen
100%
carbon dioxide
100%
surfaces
50%
alloys
50%
production
33%
polycrystals
33%
performance
33%
catalysts
33%
increasing
16%
adsorption
16%
current density
16%
nanostructures
16%
reduction
16%
fuels
16%
absorption spectroscopy
16%
renewable resources
16%
metals
16%
binding energy
16%
voltametry
16%
palladium
16%
thin films
16%
electrodes
16%
availability
16%
gold
16%
Keyphrases
Absorption Potential
33%
Polycrystalline Au
33%
Bimetallic Alloy
33%
AuPd
33%
Polycrystalline Metals
33%
Electrocatalytic Performance
33%
Surface-enhanced Infrared Absorption Spectroscopy (SEIRAS)
33%