Monitoring transient changes in the structure of water at a polarised liquid-liquid interface using electrocapillary curves

Marco F. Suárez-Herrera; Pierre André Cazade; Damien Thompson; Micheál D. Scanlon

doi:10.1016/j.elecom.2019.106564

Monitoring transient changes in the structure of water at a polarised liquid-liquid interface using electrocapillary curves

Marco F. Suárez-Herrera, Pierre André Cazade, Damien Thompson, Micheál D. Scanlon

Research output: Contribution to journal › Article › peer-review

Abstract

The interface between two immiscible electrolyte solutions (ITIES) is a close approximation of an ideally polarisable interface, being non-equilibrated upon formation. Despite this, the formalism of equilibrium thermodynamics, e.g., electrocapillary equations, are universally applied to interpret electrochemical processes at the ITIES. This communication shows that interfacial energy measurements in real time during step potential experiments are a useful tool to detect transient changes in the structure of the electrolyte solutions at the ITIES, in particular in the presence of chaotropes or kosmotropes in the aqueous electrolyte. Molecular dynamics computer simulations substantiate our findings, quantifying the perturbation of the atomic-scale structure, dynamics and energetics of the interface in the presence of a kosmotrope.

Original language	English
Article number	106564
Journal	Electrochemistry Communications
Volume	109
DOIs	https://doi.org/10.1016/j.elecom.2019.106564
Publication status	Published - Dec 2019

Keywords

Differential capacitance
Electrocapillary curves
Electrochemical double layer
Interface between two immiscible electrolyte solutions
Interfacial energy
Liquid-liquid interface

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10.1016/j.elecom.2019.106564

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title = "Monitoring transient changes in the structure of water at a polarised liquid-liquid interface using electrocapillary curves",

abstract = "The interface between two immiscible electrolyte solutions (ITIES) is a close approximation of an ideally polarisable interface, being non-equilibrated upon formation. Despite this, the formalism of equilibrium thermodynamics, e.g., electrocapillary equations, are universally applied to interpret electrochemical processes at the ITIES. This communication shows that interfacial energy measurements in real time during step potential experiments are a useful tool to detect transient changes in the structure of the electrolyte solutions at the ITIES, in particular in the presence of chaotropes or kosmotropes in the aqueous electrolyte. Molecular dynamics computer simulations substantiate our findings, quantifying the perturbation of the atomic-scale structure, dynamics and energetics of the interface in the presence of a kosmotrope.",

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AU - Suárez-Herrera, Marco F.

AU - Cazade, Pierre André

AU - Thompson, Damien

AU - Scanlon, Micheál D.

PY - 2019/12

Y1 - 2019/12

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AB - The interface between two immiscible electrolyte solutions (ITIES) is a close approximation of an ideally polarisable interface, being non-equilibrated upon formation. Despite this, the formalism of equilibrium thermodynamics, e.g., electrocapillary equations, are universally applied to interpret electrochemical processes at the ITIES. This communication shows that interfacial energy measurements in real time during step potential experiments are a useful tool to detect transient changes in the structure of the electrolyte solutions at the ITIES, in particular in the presence of chaotropes or kosmotropes in the aqueous electrolyte. Molecular dynamics computer simulations substantiate our findings, quantifying the perturbation of the atomic-scale structure, dynamics and energetics of the interface in the presence of a kosmotrope.

KW - Differential capacitance

KW - Electrocapillary curves

KW - Electrochemical double layer

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KW - Interfacial energy

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Monitoring transient changes in the structure of water at a polarised liquid-liquid interface using electrocapillary curves

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