Directing the Outcome of CO2 Reduction at Bismuth Cathodes Using Varied Ionic Liquid Promoters
ACS catalysis, 2018•ACS Publications
Ionic liquids (ILs) have been established as effective promoters for the electrocatalytic
upconversion of CO2 to various commodity chemicals. Imidazolium ([Im]+) cathode
combinations have been reported to selectively catalyze the 2e–/2H+ reduction of CO2 to
CO. Recently our laboratory has reported energy-efficient systems for CO production
featuring inexpensive bismuth-based cathode materials and ILs comprised of 1, 3-
dialkylimidazolium cations. As part of our ongoing efforts to understand the factors that drive …
upconversion of CO2 to various commodity chemicals. Imidazolium ([Im]+) cathode
combinations have been reported to selectively catalyze the 2e–/2H+ reduction of CO2 to
CO. Recently our laboratory has reported energy-efficient systems for CO production
featuring inexpensive bismuth-based cathode materials and ILs comprised of 1, 3-
dialkylimidazolium cations. As part of our ongoing efforts to understand the factors that drive …
Ionic liquids (ILs) have been established as effective promoters for the electrocatalytic upconversion of CO2 to various commodity chemicals. Imidazolium ([Im]+) cathode combinations have been reported to selectively catalyze the 2e–/2H+ reduction of CO2 to CO. Recently our laboratory has reported energy-efficient systems for CO production featuring inexpensive bismuth-based cathode materials and ILs comprised of 1,3-dialkylimidazolium cations. As part of our ongoing efforts to understand the factors that drive CO2 reduction at electrode interfaces, we sought to evaluate the catalytic performance of alternative ILs in combination with previously described Bi cathodes. In this work, we demonstrate that protic ionic liquids (PILs) derived from 1,8-diazabicyclo[5.4.0]undec-7-ene (DBU) effectively promote the electrochemical reduction of CO2 to formate (HCOO–) with high selectivity. The use of PILs comprised of the conjugate acid of DBU, [DBU-H]+, efficiently catalyzed the reduction of CO2 to HCOO– (FEFA ≈ 80%) with significant suppression of CO production (FECO ≈ 20%) in either MeCN or MeCN/H2O (95/5) solution. When they were used in combination with [DBU-H]+-based PILs, Bi-based cathodes achieved current densities for CO2 reduction (jtot ≈ 25–45 mA/cm2) that are comparable to or greater than those reported with imidazolium ILs such as [BMIM]PF6. As we demonstrate herein, the selectivity of the 2e– reduction of CO2 toward HCOO– or CO can be dictated through the choice of the IL promoter present in the electrolysis solution, even in cases in which the same electrocatalyst material is studied. These findings highlight the tunability of bismuth/IL systems for the electrochemical reduction of CO2 with high efficiency and rapid kinetics.
ACS Publications
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