Low Nickel-doped copper as the electrocatalyst for oxidation of formaldehyde and evolution of hydrogen

Keyphrases

• Formaldehyde 100%
• Electrocatalyst 100%
• Low Nickel 100%
• Nickel-doped 100%
• Oxidation Reaction 75%
• HCHO Oxidation 75%
• Cu(111) 50%
• Ni Dopant 37%
• Reaction Activity 25%
• Cu Electrode 25%
• Room Temperature 12%
• Adsorption 12%
• Ambient Air 12%
• Oxygen Reduction Reaction 12%
• Molar Ratio 12%
• Density Functional Theory 12%
• Rate-determining Step 12%
• Boosting Effect 12%
• Annealing Process 12%
• Peak Current 12%
• Electronic Structure 12%
• Fuel Cell 12%
• Cu Substrate 12%
• Copper Electrode 12%
• Ni Content 12%
• Voltammetry 12%
• Single Crystal Electrode 12%
• Resting Potential 12%
• Quenching Method 12%
• Chronoamperometry 12%
• Redox System 12%
• Cu Matrix 12%
• Main Species 12%

Chemistry

• Hydrogen 100%
• Electrocatalyst 100%
• electrode 100%
• Oxidation Reaction 66%
• Doping Material 33%
• Ambient Reaction Temperature 11%
• Rate-Determining Step 11%
• Density Functional Theory 11%
• Single Crystalline Solid 11%
• Fuel Cell 11%
• Oxygen Reduction Reaction 11%
• Electronic State 11%
• Voltammetry 11%
• Redox Systems 11%
• Chronoamperometry 11%

Material Science

• Doping (Additives) 100%
• Electrocatalysts 100%
• Density 33%
• Voltammetry 33%
• Catalysis 33%
• Single Crystal 33%