Analysis on Electrochemical CO2 Reduction by Diamond Doping Technology

Abstract: Mitigating the massive emissions of greenhouse gases is one of the main measures taken to resolve the current growing climate problems. The electrochemical reduction of carbon dioxide to economically valuable chemical fuels has attracted the intensive attention of scholars. This review provides an overview of the application of conductive diamond in electrocatalytic reduction and outlines the improvement of electrochemical properties by employing metal particles to modify the surface. Meanwhile, the carbon-bas… Show more

“…[17] The dual-compartment reactor has anode and cathode compartments separated by ionexchange or diaphragm membranes. [18][19][20][21][22] The dual-compartment reactor has certain advantages, including independent control of the anode/cathode reactions, separation of reactants and products in anode/cathode compartments. However, several issues caused by membrane separators for the dualcompartment reactor must be addressed.…”

Anode Reaction Control for a Single‐Compartment Electrochemical CO₂ Reduction Reactor with a Surface‐Activated Diamond Cathode

“…[17] The dual-compartment reactor has anode and cathode compartments separated by ionexchange or diaphragm membranes. [18][19][20][21][22] The dual-compartment reactor has certain advantages, including independent control of the anode/cathode reactions, separation of reactants and products in anode/cathode compartments. However, several issues caused by membrane separators for the dualcompartment reactor must be addressed.…”

Anode Reaction Control for a Single‐Compartment Electrochemical CO₂ Reduction Reactor with a Surface‐Activated Diamond Cathode

Electrochemical reduction of CO ₂ using boron-doped diamond electrodes: the influence of deposition times