Novel sulfonated poly(arylene ether ketone) containing benzoxazole membranes for proton exchange membrane fuel cell
- Authors
- Li, Jinhuan; Lee, Chang Hyun; Park, Ho Bum; Lee, Young Moo
- Issue Date
- Aug-2006
- Publisher
- 한국고분자학회
- Keywords
- fuel cell; membrane; poly(aryl ether ketone); polybenzoxazole; sulfonation
- Citation
- Macromolecular Research, v.14, no.4, pp 438 - 442
- Pages
- 5
- Indexed
- SCIE
SCOPUS
KCI
- Journal Title
- Macromolecular Research
- Volume
- 14
- Number
- 4
- Start Page
- 438
- End Page
- 442
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/181145
- DOI
- 10.1007/BF03219107
- ISSN
- 1598-5032
2092-7673
- Abstract
- Novel sulfonated poly(aryl ether ketones) containing benzoxazole were directly synthesized by aromatic nucleophilic polycondensation using various ratios of 2,2'-bi[2-(4-flurophenyl)benzoxazol-6-yl]hexafluoropropane to sodium 5,5'-carbonylbis(2-fluorobenzenesulfonate). The copolymers were soluble in polar aprotic solvents such as N-methyl-2-pyrrolidone, N,N-dimethylacetamide, and N,N-dimethylformamide at a relatively high solid composition (> 15 wt%) and formed tough, flexible and transparent membranes. The membranes exhibited a degradation temperature of above 290 degrees C. The exact dissolution times of these membranes at 80 degrees C in Fenton's reagent (3 wt% H2O2 containing 2 ppm FeSO4) were undetectable, confirming their excellent chemical stability in fuel cell application. The membranes showed a moderate increase in water uptake with respect to increasing temperature. The proton conductivities of the membranes were dependent on the composition and ranged from 1.10 X 10(-2) to 5.50x 10(-2) Scm(-1) at 80 degrees C and 95% relative humidity (RH). At 120 degrees C without externally humidified conditions, the conductivities increased above 10(-2) Scm(-1) with respect to increasing benzoxazole content, which suggested that the benzoxazole moieties contributed to the proton conduction.
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