Advances and Challenges in Membrane-Based Electrochemical Reactors for CO2 Capture: A Mini-Review

Electrochemical CO2 capture technologies are increasingly recognized for their flexibility, ability to mitigate CO2 emissions from various sources, and potential for integration with renewable power sources. Despite their promise, most studies remained at the proof-of-concept stage due to their limitations in stability, CO2 sorption efficiency, and capacity. This mini-review focuses on recent developments and energy-efficiency comparisons of membrane-based electrochemical reactors for CO2 capture. We explore the mechanisms and chemical systems underlying pH swing, Faradaic electro-swing, and capacitive swing processes. Additionally, we compare these approaches in terms of applicable systems and energy consumption. We identify key limitations, such as nonideal membrane properties, undesirable electrode reactions, and limitations of redox-active carriers. Finally, we highlight areas for improvement and propose research directions to advance this emerging field, in pursuit of being more competitive and efficient for practical CO2 capture applications. © 2024 American Chemical Society.