Highly selective composite membranes using ladder-like structured polysilsesquioxane for a non-aqueous redox flow battery

Authors
Jung, JiyoonWon, JongokHwang, Seung Sang
Issue Date
2020-02-01
Publisher
ELSEVIER
Citation
JOURNAL OF MEMBRANE SCIENCE, v.595
Abstract
Nanoporous composite membranes coated on the microporous support with a ladder-like ionic polymer were prepared and the structural selectivity effect of the membrane on a non-aqueous vanadium redox flow battery (RFB) was investigated. Crosslinkable ladder-like ionic polysilsesquioxane (L-PSQ) was synthesized and a Celgard 2400 membrane was used for the support. An L-PSQ/Celgard composite membrane was prepared by the thermal crosslinking reaction of crosslinkable L-PSQ after the dip-coating process. The permeability of ionic L-PSQ/Celgard composite membranes decreased by two orders of magnitude upon thin coating while maintaining its high ion conductivity of the porous support, which provides higher charge/discharge capacity and cell efficiencies of RFB at all current densities compared to those of the RFB with the porous Celgard 2400 membrane. Due to the reduction of the crossover, the coulombic and energy efficiencies of non-aqueous vanadium RFB increase and reached 62.7% and 43.7%, respectively, for the RFB with the membrane containing 5.4 wt% of L-PSQ. These values are higher than those obtained for the Celgard membrane and the commercial Neosepta AHA membrane. This result implies that structure control of the membrane is a practical solution for the adaptation of the non-aqueous RFB for the future energy storage systems.
Keywords
ELECTROLYTES; ELECTROLYTES; Ion exchange membrane; Non-aqueous redox flow battery; Ladder structure; Polysilsesquioxane; Energy storage system; Ionic polymer
ISSN
0376-7388
URI
https://pubs.kist.re.kr/handle/201004/118978
DOI
10.1016/j.memsci.2019.117520
Appears in Collections:
KIST Article > 2020
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