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Molecular-scale insights into the electrical double layer at oxide-electrolyte interfaces

Chunyi Zhang, Marcos F. Calegari Andrade, Zachary K. Goldsmith, Abhinav S. Raman, Yifan Li, Pablo M. Piaggi, Xifan Wu, Roberto Car, Annabella Selloni

2024Nature Communications78 citationsDOIOpen Access PDF

Abstract

The electrical double layer (EDL) at metal oxide-electrolyte interfaces critically affects fundamental processes in water splitting, batteries, and corrosion. However, limitations in the microscopic-level understanding of the EDL have been a major bottleneck in controlling these interfacial processes. Herein, we use ab initio-based machine learning potential simulations incorporating long-range electrostatics to unravel the molecular-scale picture of the EDL at the prototypical anatase TiO2-electrolyte interface under various pH conditions. Our large-scale simulations, capable of capturing interfacial water dissociation/recombination reactions and electrolytic proton transport, provide unprecedented insights into the detailed structure of the EDL. Moreover, the larger capacitance of the EDL under basic relative to acidic conditions, originating from the higher affinity of the cations for the oxide surface, is found to give rise to distinct charging mechanisms on negative and positive surfaces. Our results are validated by the agreement between the computed EDL capacitance and experimental data. Microscopic understanding of the electrical double layer (EDL) is key to optimizing interfacial processes in water splitting and batteries. Here, the authors report the insight of EDL at oxide-electrolyte interfaces with ab initio machine learning simulations that agrees with available experiments.

Topics & Concepts

ElectrolyteOxideChemical physicsCapacitanceMaterials scienceAb initioElectrostaticsDissociation (chemistry)NanotechnologyMolecular dynamicsChemistryComputational chemistryPhysical chemistryElectrodeMetallurgyOrganic chemistryElectrochemical Analysis and ApplicationsElectronic and Structural Properties of OxidesElectrocatalysts for Energy Conversion
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