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Nature of Overcharging and Charge Inversion in Electrical Double Layers

Nikhil R. Agrawal, Chao Duan, Rui Wang

2023The Journal of Physical Chemistry B21 citationsDOI

Abstract

Understanding overcharging and charge inversion is one of the long-standing challenges in soft matter and biophysics. To study these phenomena, we employ the modified Gaussian renormalized fluctuation theory, which allows for the self-consistent accounting of spatially varying ionic strength as well as the spatial variations in dielectric permittivity and excluded volume effects. The underlying dependence of overcharging on the electrostatic coupling is elucidated by varying the surface charge, counterion valency, and dielectric contrast. Consistent with simulations, three characteristic regimes corresponding to weak, moderate, and strong coupling are identified. Important features like the inversion of zeta potential, crowding, and ionic layering at the surface are successfully captured. For weak coupling, there is no overcharging. In the moderate coupling regime, overcharging increases with the surface charge. Finally, in the strong coupling regime, ionic crowding and saturation in overcharging are observed. Our theory predicts a nonmonotonic dependence of charge inversion on multivalent salt concentration as well as the addition of monovalent salt, in quantitative agreement with experiments.

Topics & Concepts

Ionic bondingDielectricCondensed matter physicsChemical physicsSurface chargeCoupling (piping)CounterionChemistryValencyGaussianIonMaterials sciencePhysicsComputational chemistryQuantum mechanicsMetallurgyPhysical chemistryLinguisticsOrganic chemistryPhilosophyElectrostatics and Colloid InteractionsSpectroscopy and Quantum Chemical StudiesNanopore and Nanochannel Transport Studies
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