Cyclic Voltammetry as a Probe of Selective Ion Transport within Layered, Electrode-Supported Ion-Exchange Membrane Materials

Cyclic voltammetry was applied to investigate the permselective properties of electrode-supported ion-exchange polymer films intended for use in future molecular-scale spectroscopic studies of bipolar membranes. The ability of thin ionomer film assemblies to exclude mobile ions charged similarly to...

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Bibliographic Details
Published in:Journal of the Electrochemical Society 2022-02, Vol.169 (2), p.26520
Main Authors: Xu, Jiahe, Leddy, Johna, Korzeniewski, Carol
Format: Article
Language:English
Subjects:
charge transport mechanisms
cyclic voltammetry
electron diffusion
ionomer films
permselectivity
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Summary:Cyclic voltammetry was applied to investigate the permselective properties of electrode-supported ion-exchange polymer films intended for use in future molecular-scale spectroscopic studies of bipolar membranes. The ability of thin ionomer film assemblies to exclude mobile ions charged similarly to the polymer (co-ions) and accumulate ions charged opposite to the polymer (counterions) was scrutinized through use of the diffusible redox probe molecules [Ru(NH 3 ) 6 ] 3+ and [IrCl 6 ] 2− . With the anion exchange membrane (AEM) phase supported on a carbon disk electrode, bipolar junctions formed by addition of a cation exchange membrane (CEM) overlayer demonstrated high selectivity toward redox ion extraction and exclusion. For junctions formed using a Fumion ® AEM phase and a Nafion ® overlayer, [IrCl 6 ] 2− ions exchanged into Fumion ® prior to Nafion ® overcoating remained entrapped and the Fumion ® excluded [Ru(NH 3 ) 6 ] 3+ ions for durability testing periods of more than 20 h under conditions of interest for eventual in situ spectral measurements. Experiments with the Sustainion ® anion exchange ionomer uncovered evidence for [IrCl 6 ] 2− ion coordination to pendant imidazolium groups on the polymer. A cyclic voltammetric method for estimation of the effective diffusion coefficient and equilibrium extraction constant for redox active probe ions within inert, uniform density electrode-supported thin films was applied to examine charge transport mechanisms.
ISSN:0013-4651
1945-7111
DOI:10.1149/1945-7111/ac51fd