Issue 47, 2019, Issue in Progress

Reinforced anion exchange membrane based on thermal cross-linking method with outstanding cell performance for reverse electrodialysis

Abstract

A poly(ethylene)-reinforced anion exchange membrane based on cross-linked quaternary-aminated polystyrene and quaternary-aminated poly(phenylene oxide) was developed for reverse electrodialysis. Although reverse electrodialysis is a clean and renewable energy generation system, the low power output and high membrane cost are serious obstacles to its commercialization. Herein, to lower the membrane cost, inexpensive polystyrene and poly(phenylene oxide) were used as ionomer backbones. The ionomers were impregnated into a poly(ethylene) matrix supporter and were cross-linked in situ to enhance the mechanical and chemical properties. Pre-treatment of the porous PE matrix membrane with atmospheric plasma increased the compatibility between the ionomer and matrix membrane. The fabricated membranes showed outstanding physical, chemical, and electrochemical properties. The area resistance of the fabricated membranes (0.69–1.67 Ω cm2) was lower than that of AMV (2.58 Ω cm2). Moreover, the transport number of PErC(5)QPS-QPPO was comparable to that of AMV, despite the thinness (51 μm) of the former. The RED stack with the PErC(5)QPS-QPPO membrane provided an excellent maximum power density of 1.82 W m−2 at a flow rate of 100 mL min−1, which is 20.7% higher than that (1.50 W m−2) of the RED stack with the AMV membrane.

Graphical abstract: Reinforced anion exchange membrane based on thermal cross-linking method with outstanding cell performance for reverse electrodialysis

Supplementary files

Article information

Article type
Paper
Submitted
02 Jul 2019
Accepted
26 Aug 2019
First published
02 Sep 2019
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2019,9, 27500-27509

Reinforced anion exchange membrane based on thermal cross-linking method with outstanding cell performance for reverse electrodialysis

Y. J. Lee, M. S. Cha, S. Oh, S. So, T. Kim, W. S. Ryoo, Y. T. Hong and J. Y. Lee, RSC Adv., 2019, 9, 27500 DOI: 10.1039/C9RA04984C

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