酸性电解质中电化学还原二氧化碳过程中的电极/电解质界面研究

IF 16.1 1区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY Angewandte Chemie International Edition Pub Date : 2024-09-26 DOI:10.1002/anie.202415894

Yao Yao, Ernest Pahuyo Delmo, Minhua Shao

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引用次数: 0

摘要

与碱性电解质相比，酸性电解质中的二氧化碳还原（CO2R）具有更高的碳效率和稳定性，因此备受关注。然而，质子源和碱阳离子在 CO2R 中的作用仍存在争议。通过使用旋转环盘电极和表面增强红外吸收光谱，我们发现即使在酸性电解质中，界面上的中性/碱性环境也是 CO2R 的必要条件。我们还证实，水分子而非质子是 CO2R 的质子源。外赫尔姆霍兹平面上的碱阳离子激活了 H2O，并促进了吸附的一氧化碳的解吸。此外，溶解的二氧化碳或 CO2（aq）是 CO2R 的实际反应物。这项研究加深了人们对酸性电解质中二氧化碳还原过程中电极/电解质界面的理解，并为进一步提高该系统的性能提供了启示。

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The Electrode/Electrolyte Interface Study during the Electrochemical CO2 Reduction in Acidic Electrolytes

Electrochemical CO2 Reduction (CO2R) in acidic electrolytes has gained significant attention owing to higher carbon efficiency and stability than in alkaline counterparts. However, the proton source and the role of alkali cations for CO2R are still under debate. By using rotating ring disk electrode and surface-enhanced infrared absorption spectroscopy, we find that a neutral/alkaline environment at the interface is necessary for CO2R even in acidic electrolytes. We also confirm that water molecules, rather than protons serve as the proton source for CO2R. Alkali cations in the outer Helmholtz plane activate H2O and promote the desorption of adsorbed carbon monoxide. Additionally, the solvated CO2, or CO2(aq), is the actual reactant for CO2R. This study provides a deeper understanding of the electrode/electrolyte interface during CO2R in acidic electrolytes and sheds light on further performance improvement of this system.

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来源期刊

Angewandte Chemie International Edition 化学-化学综合

CiteScore

26.60

自引率

6.60%

发文量

3549

审稿时长

1.5 months

期刊介绍： Angewandte Chemie, a journal of the German Chemical Society (GDCh), maintains a leading position among scholarly journals in general chemistry with an impressive Impact Factor of 16.6 (2022 Journal Citation Reports, Clarivate, 2023). Published weekly in a reader-friendly format, it features new articles almost every day. Established in 1887, Angewandte Chemie is a prominent chemistry journal, offering a dynamic blend of Review-type articles, Highlights, Communications, and Research Articles on a weekly basis, making it unique in the field.