How to Assess and Predict Electrical Double Layer Properties. Implications for Electrocatalysis

• Published in: Chemical reviews
• Main Authors: Schott, Christian M., Schneider, Peter M., Song, Kun-Ting, Yu, Haiting, Götz, Rainer, Haimerl, Felix, Gubanova, Elena, Zhou, Jian, Schmidt, Thorsten O., Zhang, Qiwei, Alexandrov, Vitaly, Bandarenka, Aliaksandr S.
• Format: Journal Article
• Language: English
• Published: 11.11.2024
• ISSN: 0009-2665; 1520-6890; 1520-6890
• DOI: 10.1021/acs.chemrev.3c00806

The electrical double layer (EDL) plays a central role in electrochemical energy systems, impacting charge transfer mechanisms and reaction rates. The fundamental importance of the EDL in interfacial electrochemistry has motivated researchers to develop theoretical and experimental approaches to assess EDL properties. In this contribution, we review recent progress in evaluating EDL characteristics such as the double-layer capacitance, highlighting some discrepancies between theory and experiment and discussing strategies for their reconciliation. We further discuss the merits and challenges of various experimental techniques and theoretical approaches having important implications for aqueous electrocatalysis. A strong emphasis is placed on the substantial impact of the electrode composition and structure and the electrolyte chemistry on the double-layer properties. In addition, we review the effects of temperature and pressure and compare solid-liquid interfaces to solid-solid interfaces.The electrical double layer (EDL) plays a central role in electrochemical energy systems, impacting charge transfer mechanisms and reaction rates. The fundamental importance of the EDL in interfacial electrochemistry has motivated researchers to develop theoretical and experimental approaches to assess EDL properties. In this contribution, we review recent progress in evaluating EDL characteristics such as the double-layer capacitance, highlighting some discrepancies between theory and experiment and discussing strategies for their reconciliation. We further discuss the merits and challenges of various experimental techniques and theoretical approaches having important implications for aqueous electrocatalysis. A strong emphasis is placed on the substantial impact of the electrode composition and structure and the electrolyte chemistry on the double-layer properties. In addition, we review the effects of temperature and pressure and compare solid-liquid interfaces to solid-solid interfaces.