CO ₂ electrolysis to multicarbon products in strong acid

Abstract: Carbon dioxide electroreduction (CO2R) is being actively studied as a promising route to convert carbon emissions to valuable chemicals and fuels. However, the fraction of input CO2 that is productively reduced has typically been very low, <2% for multicarbon products; the balance reacts with hydroxide to form carbonate in both alkaline and neutral reactors. Acidic electrolytes would overcome this limitation, but hydrogen evolution has hitherto dominated under those conditions. We report that concentrating … Show more

“…For example, recently, Huang et al reported ECO2R on Cu in an acid environment, which increased single-pass CO 2 utilization to 77% in a GDE flow cell. 14 Here, the protons required for CO 2 electrolysis are still envisioned to come from water-splitting, resulting in OH – formation similar to neutral and alkaline electrolytes. However, the excess protons in the surrounding electrolyte both neutralize excess OH – and reclaim CO 2 that was lost to (bi)carbonate.…”

“… 34 The improved selectivity has been explained by the better kinetics of ECO2R than HER in such environment, where the proton donor in both cases is from water and cations play less of a role in selectivity as compared to acidic media. 14 , 35 …”

Cation-Driven Increases of CO₂ Utilization in a Bipolar Membrane Electrode Assembly for CO₂ Electrolysis

“…For example, recently, Huang et al reported ECO2R on Cu in an acid environment, which increased single-pass CO 2 utilization to 77% in a GDE flow cell. 14 Here, the protons required for CO 2 electrolysis are still envisioned to come from water-splitting, resulting in OH – formation similar to neutral and alkaline electrolytes. However, the excess protons in the surrounding electrolyte both neutralize excess OH – and reclaim CO 2 that was lost to (bi)carbonate.…”

“… 34 The improved selectivity has been explained by the better kinetics of ECO2R than HER in such environment, where the proton donor in both cases is from water and cations play less of a role in selectivity as compared to acidic media. 14 , 35 …”

Cation-Driven Increases of CO₂ Utilization in a Bipolar Membrane Electrode Assembly for CO₂ Electrolysis

“…In addition, the alkaline electrolyte was used, which can result in the CO 2 loss, imposing a limit of carbon utilization efficiency. 37 According to the previous reports, 38 the low concentrations of CO 2 can be directly converted to CO, however, the concentration of the CO was very low. Recently, high content of CO has been obtained via the electroreduction of the captured solution of CO 2 .…”

Quasi-square-shaped cadmium hydroxide nanocatalysts for electrochemical CO₂ reduction with high efficiency

“… 13 , 311 , 312 Since the pioneering works by Hori et al., 313 , 314 massive efforts have been devoted to boost the catalytic performance of electrochemical CO 2 RR, especially within the past decade. 315 , 316 , 317 , 318 , 319 , 320 , 321 There has been increasing mechanistic understanding as well as many encouraging signs of experimental progress on this complicated multi-electron and multi-proton transfer reaction system. 192 , 315 , 322 , 323 , 324 , 325 , 326 …”

“… 315 , 316 , 317 , 318 , 319 , 320 , 321 There has been increasing mechanistic understanding as well as many encouraging signs of experimental progress on this complicated multi-electron and multi-proton transfer reaction system. 192 , 315 , 322 , 323 , 324 , 325 , 326 …”

Technologies and perspectives for achieving carbon neutrality