Beyond the Debye–Hückel limit: Toward a general theory for concentrated electrolytes
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Intan, Nadia N
Duignan, Timothy T
Biasin, Elisa
Fulton, John L
Kathmann, Shawn M
Schenter, Gregory K
Mundy, Christopher J
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Abstract
The phenomenon of underscreening in concentrated electrolyte solutions leads to a larger decay length of the charge-charge correlation than the prediction of Debye-Hückel (DH) theory and has found a resurgence of both theoretical and experimental interest in the chemical physics community. To systematically understand and investigate this phenomenon in electrolytes requires a theory of concentrated electrolytes to describe charge-charge correlations beyond the DH theory. We review the theories of electrolytes that can transition from the DH limit to concentrations where charge correlations dominate, giving rise to underscreening and the associated Kirkwood Transitions (KTs). In this perspective, we provide a conceptual approach to a theoretical formulation of electrolyte solutions that exploits the competition between molecular-informed short-range (SR) and long-range interactions. We demonstrate that all deviations from the DH limit for real electrolyte solutions can be expressed through a single function ΣQ that can be determined both theoretically and numerically. Importantly, ΣQ can be directly related to the details of SR interactions and, therefore, can be used as a tool to understand how differences in representations of interaction can influence collective effects. The precise function form of ΣQ can be inferred through a Gaussian field theory of both the number and charge densities. The resulting formulation is validated by experiment and can accurately describe the collective phenomenon of screening in concentrated bulk electrolytes. Importantly, the Gaussian field theory predictions of the screening lengths appear to be less than ∼1 nm at concentrations above KTs.
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Journal of Chemical Physics
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161
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23
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© 2024 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
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Dinpajooh, M; Intan, NN; Duignan, TT; Biasin, E; Fulton, JL; Kathmann, SM; Schenter, GK; Mundy, CJ, Beyond the Debye–Hückel limit: Toward a general theory for concentrated electrolytes, Journal of Chemical Physics, 2024, 161 (23), pp. 230901