Keyphrases
Ruthenium
100%
Nanocatalyst
100%
Surface Engineering
100%
Formic Acid Oxidation
100%
Palladium
100%
Oxidation Performance
100%
PdPt
55%
Chronoamperometric
33%
Palladium Nanocatalyst
33%
Palladium-based
33%
High Mass Activity
22%
Formic Acid Oxidation Reaction
22%
Low Voltage
11%
Anodic
11%
Spectroscopic Analysis
11%
Electrochemical Analysis
11%
Mass Activity
11%
Carbon Support
11%
Reaction Performance
11%
Noble Metals
11%
Microscopic Analysis
11%
Base Metals
11%
Enhanced Catalytic Activity
11%
Stability Test
11%
Polyol Reduction
11%
Reduction Conditions
11%
Strategic Opportunities
11%
Surface Electronic Properties
11%
Improved Electrochemical Performance
11%
Supported Palladium
11%
Surface Functional
11%
CO Tolerance
11%
Foreign Atoms
11%
Material Science
Oxidation Reaction
100%
Ruthenium
100%
Surface Engineering
100%
Palladium
100%
Platinum
9%
Electrochemical Reaction
9%
Microscopy
9%
Functional Surface
9%
Surface Electronic Property
9%
Polyol
9%
Chemistry
Formic Acid
100%
Palladium
100%
Ruthenium Atom
100%
Oxidation Reaction
18%
Ruthenium
9%
Electro Analytical Method
9%
Spectroscopic Analysis
9%
Polyol
9%
stability
9%
Noble Metal
9%
Surface Electronic Property
9%
Chemical Engineering
Formic Acid
100%
Precious Metal
33%
Polyol
33%