Organic-moiety-engineering on copper surface for carbon dioxide reduction

Abstract: Electrochemical conversion of carbon dioxide (CO2) into value-added products powered by sustainable electricity is considered as one of the most promising strategies for carbon neutrality. Among the products, hydrocarbons, especially...

“…Thus, the adlayer acts as a protective layer for the catalyst under rigorous conditions, suggesting an efficient strategy for the acidic CO 2 RR. 17,48,49,53,81,82 Adlayers commonly used for the acidic CO 2 RR are ionomers that consist of a hydrophobic backbone, side chains and hydrophilic ionic groups. Hydrated cations migrate through the hydrophilic channel established by the SO 3 − ionic groups of the ionomer, which exhibit a greater affinity for K + than for protons.…”

Acidic CO₂ electroreduction for high CO₂ utilization: catalysts, electrodes, and electrolyzers

“…Thus, the adlayer acts as a protective layer for the catalyst under rigorous conditions, suggesting an efficient strategy for the acidic CO 2 RR. 17,48,49,53,81,82 Adlayers commonly used for the acidic CO 2 RR are ionomers that consist of a hydrophobic backbone, side chains and hydrophilic ionic groups. Hydrated cations migrate through the hydrophilic channel established by the SO 3 − ionic groups of the ionomer, which exhibit a greater affinity for K + than for protons.…”

Acidic CO₂ electroreduction for high CO₂ utilization: catalysts, electrodes, and electrolyzers

Regulating Organic Modifiers on Metal‐Based Catalysts for Enhanced Electrocatalytic CO₂ Reduction

Achieving green synthesis of high-value-added chemicals via N-integrated CO2 co-reduction: a review