Hydrocarbon-based polymer electrolyte cerium composite membranes for improved proton exchange membrane fuel cell durability

Hydrocarbon-based cerium composite membranes were prepared for proton exchange membrane fuel cell applications to increase oxidative stability. Different amounts of cerium ions were impregnated in sulfonated poly(arylene ether sulfone) (SPES) membranes and their physicochemical properties were inves...

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Bibliographic Details
Published in:Journal of power sources 2015-11, Vol.295, p.221-227
Main Authors: Lee, Hyejin, Han, Myungseong, Choi, Young-Woo, Bae, Byungchan
Format: Article
Language:English
Subjects:
Cerium composite membrane
Hydrocarbon-based membrane
Oxidative stability
Proton exchange membrane
Radical quencher
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Summary:Hydrocarbon-based cerium composite membranes were prepared for proton exchange membrane fuel cell applications to increase oxidative stability. Different amounts of cerium ions were impregnated in sulfonated poly(arylene ether sulfone) (SPES) membranes and their physicochemical properties were investigated according to the cerium content. Field-emission scanning electron microscopy and inductively coupled plasma analyses confirmed the presence of cerium ions in the composite membranes and 1H NMR indicated the successful coordination of sulfonic acid groups with the metal ions. Increasing amounts of cerium ions resulted in decreases in the proton conductivity and water uptake, but enhanced oxidative stability. The oxidative stability of the composite membranes was proven via a hydrogen peroxide exposure experiment which mimicked fuel cell operating conditions. In addition, more than 2200 h was achieved with the composite membrane under in situ accelerated open circuit voltage (OCV) durability testing (DOE protocol), whereas the corresponding pristine SPES membrane attained only 670 h. [Display omitted] •Cerium-impregnated polymer electrolyte membranes were prepared.•H2O2 exposure apparatus allowed the fast screening of membrane oxidative stability.•The open circuit voltage of the composite membranes was maintained for 2200 h.
ISSN:0378-7753
1873-2755
DOI:10.1016/j.jpowsour.2015.07.001