The Role of Cation Acidity on the Competition between Hydrogen Evolution and CO2 Reduction on Gold Electrodes

被引:269
作者
Monteiro, Mariana C. O. [1 ]
Dattila, Federico [2 ]
Lopez, Nuria [2 ]
Koper, Marc T. M. [1 ]
机构
[1] Leiden Univ, Leiden Inst Chem, NL-2300 RA Leiden, Netherlands
[2] Barcelona Inst Sci & Technol BIST, Inst Chem Res Catalonia ICIQ, Tarragona 43007, Spain
关键词
TOTAL-ENERGY CALCULATIONS; CARBON-DIOXIDE REDUCTION; ALKALI-METAL CATIONS; ELECTROCHEMICAL REDUCTION; SELECTIVITY; HYDROLYSIS; CHEMISTRY; DYNAMICS; FUEL;
D O I
10.1021/jacs.1c10171
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
CO2 electroreduction (CO2RR) is a sustainable alternative for producing fuels and chemicals. Metal cations in the electrolyte have a strong impact on the reaction, but mainly alkali species have been studied in detail. In this work, we elucidate how multivalent cations (Li+, Cs+, Be2+, Mg2+, Ca2+, Ba2+, Al3+, Nd3+, and Ce3+) affect CO2RR and the competing hydrogen evolution by studying these reactions on polycrystalline gold at pH = 3. We observe that cations have no effect on proton reduction at low overpotentials, but at alkaline surface pH acidic cations undergo hydrolysis, generating a second proton reduction regime. The activity and onset for the water reduction reaction correlate with cation acidity, with weakly hydrated trivalent species leading to the highest activity. Acidic cations only favor CO2RR at low over-potentials and in acidic media. At high overpotentials, the activity for CO increases in the order Ca2+ < Li+ < Ba2+ < Cs+. To favor this reaction there must be an interplay between cation stabilization of the *CO2- intermediate, cation accumulation at the outer Helmholtz plane (OHP), and activity for water reduction. Ab initio molecular dynamics simulations with explicit electric field show that nonacidic cations show lower repulsion at the interface, accumulating more at the OHP, thus triggering local promoting effects. Water dissociation kinetics is increasingly promoted by strongly acidic cations (Nd3+, Al3+), in agreement with experimental evidence. Cs+, Ba2+, and Nd3+ coordinate to adsorbed CO2 steadily; thus they enable *CO2- stabilization and barrierless protonation to COOH and further reduction products.
引用
收藏
页码:1589 / 1602
页数:14
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