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Macroscopic conductivity of aqueous electrolyte solutions scales with ultrafast microscopic ion motions.


ABSTRACT: Despite the widespread use of aqueous electrolytes as conductors, the molecular mechanism of ionic conductivity at moderate to high electrolyte concentrations remains largely unresolved. Using a combination of dielectric spectroscopy and molecular dynamics simulations, we show that the absorption of electrolytes at ~0.3?THz sensitively reports on the local environment of ions. The magnitude of these high-frequency ionic motions scales linearly with conductivity for a wide range of ions and concentrations. This scaling is rationalized within a harmonic oscillator model based on the potential of mean force extracted from simulations. Our results thus suggest that long-ranged ionic transport is intimately related to the local energy landscape and to the friction for short-ranged ion dynamics: a high macroscopic electrolyte conductivity is thereby shown to be related to large-amplitude motions at a molecular scale.

SUBMITTER: Balos V 

PROVIDER: S-EPMC7109088 | biostudies-literature | 2020 Mar

REPOSITORIES: biostudies-literature

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Macroscopic conductivity of aqueous electrolyte solutions scales with ultrafast microscopic ion motions.

Balos Vasileios V   Imoto Sho S   Netz Roland R RR   Bonn Mischa M   Bonthuis Douwe Jan DJ   Nagata Yuki Y   Hunger Johannes J  

Nature communications 20200331 1


Despite the widespread use of aqueous electrolytes as conductors, the molecular mechanism of ionic conductivity at moderate to high electrolyte concentrations remains largely unresolved. Using a combination of dielectric spectroscopy and molecular dynamics simulations, we show that the absorption of electrolytes at ~0.3 THz sensitively reports on the local environment of ions. The magnitude of these high-frequency ionic motions scales linearly with conductivity for a wide range of ions and conce  ...[more]

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