Issue 8, 2024

Beyond the electrical double layer model: ion-dependent effects in nanoscale solvent organization

Abstract

The nanoscale organization of electrolyte solutions at interfaces is often described well by the electrical double-layer model. However, a recent study has shown that this model breaks down in solutions of LiClO4 in acetonitrile at a silica interface, because the interface imposes a strong structuring in the solvent that in turn determines the preferred locations of cations and anions. As a surprising consequence of this organisation, the effective surface potential changes from negative at low electrolyte concentration to positive at high electrolyte concentration. Here we combine previous ion-current measurements with vibrational sum-frequency-generation spectroscopy experiments and molecular dynamics simulations to explore how the localization of ions at the acetonitrile–silica interface depends on the sizes of the anions and cations. We observe a strong, synergistic effect of the cation and anion identities that can prompt a large difference in the ability of ions to partition to the silica surface, and thereby influence the effective surface potential. Our results have implications for a wide range of applications that involve electrolyte solutions in polar aprotic solvents at nanoscale interfaces.

Graphical abstract: Beyond the electrical double layer model: ion-dependent effects in nanoscale solvent organization

Article information

Article type
Paper
Submitted
23 Nov 2023
Accepted
31 Jan 2024
First published
31 Jan 2024
This article is Open Access
Creative Commons BY license

Phys. Chem. Chem. Phys., 2024,26, 6726-6735

Beyond the electrical double layer model: ion-dependent effects in nanoscale solvent organization

A. J. Souna, M. H. Motevaselian, J. W. Polster, J. D. Tran, Z. S. Siwy, N. R. Aluru and J. T. Fourkas, Phys. Chem. Chem. Phys., 2024, 26, 6726 DOI: 10.1039/D3CP05712G

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