Kinetics of the oxygen reduction reaction on Pd ₃M (M = Cu, Ni, Fe) electrocatalysts synthesized at elevated annealing temperatures

Keyphrases

• Annealing Temperature 100%
• Annealing 100%
• Electrocatalyst 100%
• Cu-Ni 100%
• NiFe 100%
• Oxygen Reduction Reaction 100%
• Electrochemically Active Surface Area 50%
• C(X) 25%
• C 60 25%
• FeNi 25%
• Cyclic Voltammetry 25%
• Electron Transfer Mechanism 25%
• Crystallite Size 25%
• Oxygen Reduction 25%
• Peak Shift 25%
• X-ray Diffraction Pattern 25%
• Nicu 25%
• Carbon Support 25%
• High Oxygen-reduction Reaction Activity 25%
• Co-precipitation Method 25%
• Diffraction Angle 25%
• High Annealing Temperature 25%
• Diffraction Peak 25%
• Supported Pd 25%
• Pd Alloys 25%
• Kinetic Current 25%
• Alloy Formation 25%

Engineering

• Annealing Temperature 100%
• Oxygen Reduction Reaction 100%
• Electrocatalyst 100%
• Active Surface 66%
• Surface Area 66%
• Oxygen Reduction 33%
• Peak Shift 33%
• Crystallite Size 33%
• Coprecipitation 33%
• X-Ray Diffraction Pattern 33%

Material Science

• Electrocatalysts 100%
• Oxygen Reduction Reaction 100%
• Annealing 33%
• X-Ray Diffraction 33%
• Diffraction Pattern 33%
• Electron Transfer 33%
• Cyclic Voltammetry 33%
• Crystallite Size 33%
• Coprecipitation 33%