Keyphrases
TiOx
100%
Ruthenium
100%
Oxidation Behavior
100%
Hydrogen Oxidation
100%
Electrochemical Surface
100%
Strong Metal-support Interaction
100%
Surface Oxide Formation
100%
Reaction Activity
33%
Membrane-based
33%
Hydrogen Oxidation Reaction
33%
Proton Exchange Membrane
33%
Carbon Support
33%
Rutile
16%
Cell-based
16%
Order of Magnitude
16%
Cyclic Voltammetry
16%
High Cost
16%
Heat Treatment
16%
X-ray Photoelectron Spectroscopy
16%
Support Material
16%
Fuel Cell
16%
Oxygen Evolution Reaction
16%
Transmission Electron Microscopy Analysis
16%
Oxygen Reduction Reaction
16%
Water Electrolyzers
16%
Noble Metal Catalyst
16%
Platinum Oxidation
16%
Hydrogen Pump
16%
Reference Catalyst
16%
Composite Matrix
16%
Alternative Supports
16%
Ru Particles
16%
Supported Platinum Nanoparticles
16%
Engineering
Surface Oxide
100%
Hydrogen Oxidation Reaction
100%
Proton Exchange Membrane
100%
Fuel Cell
100%
Heat Treatment
50%
Ray Photoelectron Spectroscopy
50%
Oxygen Evolution Reaction
50%
Support Material
50%
Oxygen Reduction Reaction
50%
Platinum Nanoparticle
50%
Material Science
Oxide Surface
100%
Oxidation Reaction
100%
Ruthenium
100%
Platinum
66%
X-Ray Photoelectron Spectroscopy
33%
Heat Treatment
33%
Titanium Oxide
33%
Electron Microscopy
33%
Oxygen Evolution
33%
Cyclic Voltammetry
33%
Transmission Electron Microscopy
33%
Matrix Composite
33%
Nanoparticle
33%
Chemistry
Ruthenium
100%
Hydrogen
100%
formation
100%
Oxidation Reaction
40%
Fuel Cell
40%
Cyclic Voltammetry
20%
Metal Catalyst
20%
Titanium Oxide
20%
Transmission Electron Microscopy
20%
Oxygen Reduction Reaction
20%
Platinum Nanoparticle
20%
Electron Microscopy
20%
Noble Metal
20%
X Ray Photoemission Spectroscopy
20%
Heat Treatment
20%
Chemical Engineering
Strong Metal-Support Interaction
100%
Titanium Oxide
33%
Precious Metal
33%
Nanoparticle
33%