Renfrew, S.E.; Starr, D.E.; Strasser, P.: Electrochemical Approaches toward CO2 Capture and Concentration. ACS Catalysis 10 (2020), p. 13058-13074
10.1021/acscatal.0c03639
Open Access Version
Abstract:
Carbon capture and concentration of low partial pressure CO2 in air and flue gas is a key step in carbon abatement strategies. Traditional CO2 capture methods employ temperature or pressure swings, however electrochemical swings, in which an applied potential modulates nucleophilicity, are also possible to mediate the capture and release of CO2. In contrast to the breadth of electrochemical CO2 reduction research, electrochemically-mediated CO2 capture and concentration is an emerging field. Although some aspects are reminiscent to those in CO2 reduction, like local pH gradients and (bi)carbonate equilibria, ultimately electrochemical CO2 capture and concentration poses its own unique challenges that will benefit from insights from intercalative batteries, redox flow batteries, and bio-mimetic/-inspired design, among others. After an introduction to carbon capture and current chemical strategies, this review highlights promising emerging electrochemical methods to enable CO2 capture and concentration; specifically discussed are transition metal redox and pH swings. It closes with an outlook and discussion of future research challenges.