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Highly proton-conductive thermally rearranged polybenzoxazole for medium-temperature and low-humidity polymer electrolyte fuel cells

Authors
Lee, Chang HyunLee, Young Moo
Issue Date
Feb-2014
Publisher
ELSEVIER
Keywords
Polybenzoxazole; Polymer electrolyte fuel cell; Acid-impregnation; Thermal rearrangement; Acid leaching
Citation
JOURNAL OF POWER SOURCES, v.247, pp.286 - 293
Indexed
SCIE
SCOPUS
Journal Title
JOURNAL OF POWER SOURCES
Volume
247
Start Page
286
End Page
293
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/133990
DOI
10.1016/j.jpowsour.2013.08.111
ISSN
0378-7753
Abstract
Here a new membrane design concept to improve proton conductivity and to maintain a constant acid doping level for an extended period of time for medium-temperature and low-humidity polymer electrolyte fuel cells (MT/LH-PEFC) is presented. A polymer electrolyte membrane is prepared via thermal rearrangement of hydroxyl-containing polyimide (HPI) precursor membranes over 350 degrees C, followed by subsequent acid-impregnation. The thermal treatment for 1 h converts HPI into a thermally rearranged polybenzoxazole (TR-PBO) membrane with high surface area, similar to zeolites. The microporous structure and the basic sites (-C=N-) in benzoxazole moieties contribute to the stable impregnation of small acidic molecules (e.g., HCl, HNO3, H3PO4, and HPF6) in large quantities within the polymer matrix. The acid-doping level decreases with the increasing size of acidic dopants. TR-PBO impregnated using HCl with the smallest radius has a much higher doping level and excellent proton conductivity (1.60 x 10(-1) S cm(-1) at 130 degrees C and RH 28%) when compared with PBI (6.59 x 10(-2) S cm(-1) at the same conditions). Different from a common acid-doped PBI system, the acid-doped TR-PBO membranes do not exhibit a severe acid leaching even in repeated heating and cooling cycles between 90 and 130 degrees C.
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