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Ion correlation-driven like-charge attraction in multivalent salt solutions

Nikhil R. Agrawal, Ravtej Kaur, Carlo Carraro, Rui Wang

2023The Journal of Chemical Physics13 citationsDOI

Abstract

The electrostatic double layer force is key to determining the stability and self-assembly of charged colloids and many other soft matter systems. Fully understanding the attractive force between two like-charged surfaces remains a great challenge. Here, we apply the modified Gaussian renormalized fluctuation theory to study ion correlation-driven like-charge attraction in multivalent salt solutions. The effects of spatially varying ion correlations on the structure of overlapping double layers and their free energy are self-consistently accounted for. In the presence of multivalent salts, increasing surface charge or counterion valency leads to a short-range attraction. We demonstrate that although both overcharging and like-charge attraction are outcomes of ion correlation, there is no causal relationship between them. Our theory also captures the non-monotonic dependence of like-charge attraction on multivalent salt concentration. The reduction of attraction at high salt concentrations could be a contributing factor toward the reentrant stability of charged colloidal suspensions. Our theoretical predictions are consistent with the observations reported in experiments and simulations.

Topics & Concepts

AttractionChemical physicsIonCounterionCharge (physics)ColloidSalt (chemistry)ValencyChemistryRange (aeronautics)Double layer (biology)Surface chargeElectrostaticsMaterials sciencePhysicsNanotechnologyLayer (electronics)Quantum mechanicsPhysical chemistryOrganic chemistryLinguisticsPhilosophyComposite materialElectrostatics and Colloid InteractionsSpectroscopy and Quantum Chemical StudiesMaterial Dynamics and Properties
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