Solid-state synthesis of Cu nanoparticles embedded in carbon substrate for efficient electrochemical reduction of carbon dioxide to formic acid

Keyphrases

• Carbon Substrate 100%
• Electrochemical Carbon Dioxide Reduction 100%
• Formic Acid 100%
• Cu Nanoparticles 100%
• Solid-state Synthesis 100%
• HCOOH Production 40%
• Highly Selective 20%
• Uniformly Distributed 20%
• Adsorption 20%
• Density Functional Calculations 20%
• High Selectivity 20%
• CO2 Emissions 20%
• High Activity 20%
• CO2 Electrochemical Reduction 20%
• CO2 Reduction Reaction (CO2RR) 20%
• Efficient Production 20%
• Electrocatalyst 20%
• Synergy Effect 20%
• Carbon Surface 20%
• Cu(111) 20%
• (111) Facet 20%
• Emission Problem 20%
• HCOOH Formation 20%
• Cu-based Electrocatalyst 20%
• High Faradaic Efficiency 20%
• Carbon-neutral Cycle 20%

Material Science

• Nanoparticle 100%
• Carbon Dioxide 100%
• Electrochemical Reaction 100%
• Electrocatalysts 50%
• Density 25%
• Carbon Surface 25%

Chemical Engineering

• Nanoparticle 100%
• Carbon Dioxide 100%
• Formic Acid 100%
• Carbon Dioxide Reduction 33%