Transport Properties of Cation-Exchange Membranes Obtained by Pore Filling of Track-Etched Membranes with Perfluorosulfonic Acid Polymer

Loading...
Thumbnail Image

Date

Journal Title

Journal ISSN

Volume Title

Publisher

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.

Description

Citation

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.

Collections

Endorsement

Review

Supplemented By

Referenced By