Chemistry - An Asian Journal, Journal Year: 2025, Volume and Issue: unknown
Published: April 21, 2025
Abstract The ever‐increasing concentration of atmospheric CO 2 , primarily driven by anthropogenic activities, has raised urgent environmental concerns, spurring the development carbon capture and utilization (CCU) technologies. This review focuses on integrated electrochemical conversion (ICECC), a promising approach that combines with its direct electroreduction into value‐added products. By eliminating energy‐intensive steps such as release, compression, transportation, ICECC offers more energy‐efficient cost‐effective alternative to conventional CCU methods. In this review, particular attention is given molecular electrocatalysts, which offer high tunability selectivity in reduction reaction (eCO RR). role capturing agents, including both external dual‐functional systems, critically examined understand their influence binding catalytic efficiency. Whereas significant potential, research area remains underexplored compared discusses mechanistic insights processes, highlighting key challenges potential future directions for improving catalyst design, enhancing efficiency, scaling up These developments can make critical component achieving neutrality addressing climate change.
Language: Английский