Volume 249, 2024

Water molecules mute the dependence of the double-layer potential profile on ionic strength

Abstract

We present the results of molecular dynamics simulations of a nanoscale electrochemical cell. The simulations include an aqueous electrolyte solution with varying ionic strength (i.e., concentrations ranging from 0–4 M) between a pair of metallic electrodes held at constant potential difference. We analyze these simulations by computing the electrostatic potential profile of the electric double-layer region and find it to be nearly independent of ionic concentration, in stark contrast to the predictions of standard continuum-based theories. We attribute this lack of concentration dependence to the molecular influences of water molecules at the electrode–solution interface. These influences include the molecular manifestation of water’s dielectric response, which tends to drown out the comparatively weak screening requirement of the ions. To support our analysis, we decompose water’s interfacial response into three primary contributions: molecular layering, intrinsic (zero-field) orientational polarization, and the dipolar dielectric response.

Graphical abstract: Water molecules mute the dependence of the double-layer potential profile on ionic strength

Associated articles

Article information

Article type
Paper
Submitted
01 Jun 2023
Accepted
03 Jul 2023
First published
05 Jul 2023
This article is Open Access
Creative Commons BY license

Faraday Discuss., 2024,249, 267-288

Water molecules mute the dependence of the double-layer potential profile on ionic strength

A. Limaye, D. Suvlu and A. P. Willard, Faraday Discuss., 2024, 249, 267 DOI: 10.1039/D3FD00114H

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