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Journal Article FZJ-2022-04740
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Ionic transport modeling for liquid electrolytes ‐ Experimental evaluation by concentration gradients and limited currents

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2022
Wiley-VCH Verlag GmbH & Co KGaA Weinheim

Electrochemical science advances 3(2), e2100189 () [10.1002/elsa.202100189]

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Abstract: A direct current in an electrochemical cell with a diluted liquid electrolyte leads to the displacement of ions within the solvent, while diffusion works against the resulting concentration differences. This study aims to experimentally evaluate a physicochemical ion transport model (source code provided) that describes current-driven concentration gradients in diluted electrolytes. Hereto, an aqueous 0.1 M CuSO4 electrolyte between metallic copper electrodes serves as an experimental test system. Spatially resolved optical measurements are used to monitor the evolution of the ion concentration gradient in the electrolyte. Moreover, measured limited currents are related to computationally modeled concentration gradients. A constant parameterization of the diffusion coefficient, molar conductivity and ion transport number lead to a slight overestimation of the cathodic ion depletion and cell resistance, whereas a literature data based concentration dependent parameterization matches better to the measured data. The limited current is considered under a computational parameter variation and thereby related to the physicochemical impact of different electrolyte properties on the ion transport. This approach highlights the differences between purely diffusion limited currents and the limited current resulting from the combined electric field and diffusion driven ion motion. A qualitative schematic sketch of the physical mechanisms of the ion movement is presented to illustrate the current driven ion displacement in liquid electrolytes.

Classification:
Contributing Institute(s):
  1. Grundlagen der Elektrochemie (IEK-9)
Research Program(s):
  1. 1232 - Power-based Fuels and Chemicals (POF4-123) (POF4-123)

Appears in the scientific report 2022
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Creative Commons Attribution-NonCommercial CC BY-NC 4.0 ; OpenAccess
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 Record created 2022-11-16, last modified 2024-07-12
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Electrochemical Science Adv - 2022 - Schalenbach - Ionic transport modeling for liquid electrolytes ‐ Experimental - Download fulltext PDF
JUSER_Ion Transport and Limited Currents in Supporting Electrolytes and ... - Download fulltext PDF
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