Sulfonated poly(arylene ether sulfone ketone) multiblock copolymers with highly sulfonated blocks. Long-term fuel cell operation and post-test analyses

Byungchan Bae; Kenji Miyatake; Makoto Uchida; Hiroyuki Uchida; Yoko Sakiyama; Takeou Okanishi; Masahiro Watanabe

doi:10.1021/am200579z

Sulfonated poly(arylene ether sulfone ketone) multiblock copolymers with highly sulfonated blocks. Long-term fuel cell operation and post-test analyses

Byungchan Bae, Kenji Miyatake^*, Makoto Uchida, Hiroyuki Uchida, Yoko Sakiyama, Takeou Okanishi, Masahiro Watanabe

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

49 Citations (Scopus)

Abstract

The stability of poly(arylene ether sulfone ketone) (SPESK) multiblock copolymer membranes having highly sulfonated hydrophilic blocks was tested in an operating fuel cell. The electrochemical properties and drain water were monitored during the test, followed by post-test analyses of the membrane. During a 2000-h fuel cell operation test at 80 °C and 53% RH (relative humidity) and with a constant current density (0.2 A cm^-2), the cell voltage showed minor losses, with slight increases in the resistance. In the drain water, anions such as formate, acetate, and sulfate were observed. Post-test analyses of the chemical structure by NMR and IR spectra revealed that the sulfonated fluorenyl group with ether linkage was the most likely to have degraded during the long-term operation, producing these small molecules. The minor oxidative degradation only slightly affected the proton conductivity, water uptake, and phase-separated morphology.

Original language	English
Pages (from-to)	2786-2793
Number of pages	8
Journal	ACS Applied Materials and Interfaces
Volume	3
Issue number	7
DOIs	https://doi.org/10.1021/am200579z
Publication status	Published - 2011 Jul 27
Externally published	Yes

Keywords

block copolymer membranes
durability
fuel cells
ionomers
poly(arylene ether sulfone ketone)s

ASJC Scopus subject areas

Materials Science(all)

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10.1021/am200579z

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title = "Sulfonated poly(arylene ether sulfone ketone) multiblock copolymers with highly sulfonated blocks. Long-term fuel cell operation and post-test analyses",

abstract = "The stability of poly(arylene ether sulfone ketone) (SPESK) multiblock copolymer membranes having highly sulfonated hydrophilic blocks was tested in an operating fuel cell. The electrochemical properties and drain water were monitored during the test, followed by post-test analyses of the membrane. During a 2000-h fuel cell operation test at 80 °C and 53% RH (relative humidity) and with a constant current density (0.2 A cm-2), the cell voltage showed minor losses, with slight increases in the resistance. In the drain water, anions such as formate, acetate, and sulfate were observed. Post-test analyses of the chemical structure by NMR and IR spectra revealed that the sulfonated fluorenyl group with ether linkage was the most likely to have degraded during the long-term operation, producing these small molecules. The minor oxidative degradation only slightly affected the proton conductivity, water uptake, and phase-separated morphology.",

keywords = "block copolymer membranes, durability, fuel cells, ionomers, poly(arylene ether sulfone ketone)s",

author = "Byungchan Bae and Kenji Miyatake and Makoto Uchida and Hiroyuki Uchida and Yoko Sakiyama and Takeou Okanishi and Masahiro Watanabe",

year = "2011",

month = jul,

day = "27",

doi = "10.1021/am200579z",

language = "English",

volume = "3",

pages = "2786--2793",

journal = "ACS Applied Materials and Interfaces",

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AU - Bae, Byungchan

AU - Miyatake, Kenji

AU - Uchida, Makoto

AU - Uchida, Hiroyuki

AU - Sakiyama, Yoko

AU - Okanishi, Takeou

AU - Watanabe, Masahiro

PY - 2011/7/27

Y1 - 2011/7/27

N2 - The stability of poly(arylene ether sulfone ketone) (SPESK) multiblock copolymer membranes having highly sulfonated hydrophilic blocks was tested in an operating fuel cell. The electrochemical properties and drain water were monitored during the test, followed by post-test analyses of the membrane. During a 2000-h fuel cell operation test at 80 °C and 53% RH (relative humidity) and with a constant current density (0.2 A cm-2), the cell voltage showed minor losses, with slight increases in the resistance. In the drain water, anions such as formate, acetate, and sulfate were observed. Post-test analyses of the chemical structure by NMR and IR spectra revealed that the sulfonated fluorenyl group with ether linkage was the most likely to have degraded during the long-term operation, producing these small molecules. The minor oxidative degradation only slightly affected the proton conductivity, water uptake, and phase-separated morphology.

AB - The stability of poly(arylene ether sulfone ketone) (SPESK) multiblock copolymer membranes having highly sulfonated hydrophilic blocks was tested in an operating fuel cell. The electrochemical properties and drain water were monitored during the test, followed by post-test analyses of the membrane. During a 2000-h fuel cell operation test at 80 °C and 53% RH (relative humidity) and with a constant current density (0.2 A cm-2), the cell voltage showed minor losses, with slight increases in the resistance. In the drain water, anions such as formate, acetate, and sulfate were observed. Post-test analyses of the chemical structure by NMR and IR spectra revealed that the sulfonated fluorenyl group with ether linkage was the most likely to have degraded during the long-term operation, producing these small molecules. The minor oxidative degradation only slightly affected the proton conductivity, water uptake, and phase-separated morphology.

KW - block copolymer membranes

KW - durability

KW - fuel cells

KW - ionomers

KW - poly(arylene ether sulfone ketone)s

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EP - 2793

JO - ACS Applied Materials and Interfaces

JF - ACS Applied Materials and Interfaces

IS - 7

ER -

Sulfonated poly(arylene ether sulfone ketone) multiblock copolymers with highly sulfonated blocks. Long-term fuel cell operation and post-test analyses

Abstract

Keywords

ASJC Scopus subject areas

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