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Oxygen reduction reaction on a mini gas diffusion electrode
Junhua Jiang,
Kishore Rajagopalan
Illinois Sustainable Technology Center
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peer-review
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Keyphrases
Oxygen Reduction Reaction
100%
Mini
100%
Gas Diffusion Electrode
100%
Carbon Support
25%
Supported Platinum
25%
Fuel Cell Reactions
25%
Catalyst Ink
25%
Limiting Current
25%
Steady-state Voltammograms
25%
Multi-electrode
12%
Mass Transport
12%
Electrolyte
12%
Fuel Cell
12%
Kinetic Analysis
12%
Wide Potential Range
12%
Specific Activity
12%
Oxygen Electroreduction
12%
Reaction Catalyst
12%
Narrow Region
12%
Catalyst Layer
12%
Geometric Surface Area
12%
Fuel Cell Catalyst
12%
Sulfuric Acid Solution
12%
Gas Diffusion Layer
12%
Gas Diffusion
12%
Mass Activity
12%
Linear Region
12%
Cell Operation
12%
Gaseous Reactants
12%
Tafel Behavior
12%
Tafel Plot
12%
Catalyst-electrolyte Interface
12%
Oxygen Mass Transport
12%
Nanostructured Catalysts
12%
Transport Correction
12%
Carbon Paper
12%
Engineering
Oxygen Reduction Reaction
100%
Gaseous Diffusion
100%
Fuel Cell Reaction
22%
Mass Transport
22%
Kinetics Analysis
11%
Reactant
11%
Measured Data
11%
Electrolyte Interface
11%
Catalyst Layer
11%
Acid Solution
11%
Gas Diffusion Layer
11%
Cell Operation
11%
Linear Region
11%
Carbon Paper
11%
Electrocatalysts
11%
Fuel Cell
11%
Chemistry
Oxygen Reduction Reaction
100%
electrode
100%
Fuel Cell
37%
Limiting Current
25%
Mass Transport
25%
Sulfuric Acid
12%
Surface Area
12%
Kinetic Method
12%
Microelectrode
12%
Material Science
Platinum
100%
Electrocatalysts
50%
Chemical Engineering
Gas Diffusion Electrode
100%
Mass Transport
25%
Sulfuric Acid
12%