Specific Ion Effects on Ion Transport in Charged Polymer Membranes

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Carolina Espinoza, Jovan Kamcev, David Kitto, Bryan R Goldsmith, Gregory Reimonn, Riley Vickers, Aeva G. Silverman

Published: 11 Mar 2026, Last Modified: 05 May 2026Science AdvancesEveryoneRevisionsCC BY-SA 4.0
Abstract: Selective separation of like-charged ions is a central challenge in applications such as critical mineral recovery. Electrochemical membrane–based separations offer promising pathways to address this need, but a limited fundamental understanding of ion transport in charged polymer membranes hampers the development of highly selective materials. This study elucidates the role of specific ion effects (SIEs) in ion transport through charged polymer membranes by integrating experimental measurements of ion mobility and in situ ion/ion and ion/water interactions in model charged polymer membranes with results from molecular dynamics simulations on analogous systems. We demonstrate that solvent-mediated ion interactions drive pronounced SIEs within the studied membranes, with the ion softness, i.e., the malleability of ion hydration shells, from hard/soft acid/base (HSAB) theory emerging as a key predictor of transport properties. HSAB theory also explains the observed mechanism of solvent-mediated ion interactions. Our findings offer a mechanistic framework for designing membranes with tailored ion selectivity, potentially enabling efficient separations of chemically similar ions.