Transport Properties of Cation-Exchange Membranes Obtained by Pore Filling of Track-Etched Membranes with Perfluorosulfonic Acid Polymer
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Karagandy University of the name of academician E.A. Buketov
Abstract
In this paper the correlation between the structural characteristics and transport properties of pore-filling membranes
formed by embedding an ion-conducting polymer into track-etched substrates was studied. Cation-exchange
membranes were fabricated by filling the pores of track-etched membranes with a perfluorosulfonic
acid polymer (trade mark LF-4SC). The resulting membranes differed in the volume fraction of the ion-conducting
polymer and in the presence or absence of a surface LF-4SC layer. SEM and ATR-FTIR spectroscopy
were employed to characterize the chemical composition and structure of the membranes. A comparative analysis
of ion-exchange capacity and water uptake was carried out. Concentration dependences of specific electrical
conductivity and diffusion permeability in NaCl solutions were obtained. The effects of pore filling degree
and LF-4SC layer thickness on osmotic transport, diffusion permeability, and selectivity were analyzed. The
electrical resistance of the prepared membranes was found to be comparable to that of the commercial MF-4SC
membrane, produced from the same perfluorosulfonic acid polymer, despite a significant fraction of the polymer
in the new membranes not participating in counterion transport. The observed structure–property relationships
were interpreted within the framework of the two-phase microheterogeneous model, providing insight
into the functional behavior of the composite membranes.
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Transport Properties of Cation-Exchange Membranes Obtained by Pore Filling of Track-Etched Membranes with Perfluorosulfonic Acid Polymer / Ponomar M.A. [et al.] // Eurasian Journal of Chemistry. — Special Issue “Track-Etched Membranes:Future Prospects, Opportunities and Challenges”. — 2025. — Vol. 30. — №3(119).– pp.65-84.