ePTFE reinforced, sulfonated aromatic polymer membranes enable durable, high-temperature operable PEMFCs

ePTFE reinforced, sulfonated aromatic polymer membranes enable durable, high-temperature operable PEMFCs

Summary: Sulfonated polyphenylene (SPP)-based ionomers have been developed for electrochemical applications in recent years due to their inherent thermal and chemical stability. However, the difficult synthesis, limited solubility, and rigid backbone obstructs their progress. Herein, a new monomer,...

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Main Authors: Zhi Long, Kenji Miyatake
Format: Article
Language:English
Published: Elsevier 2021-09-01
Series:iScience
Subjects:
Chemistry
Electrochemistry
Electrochemical energy conversion
Materials science
Energy materials
Online Access:http://www.sciencedirect.com/science/article/pii/S2589004221009305
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spelling doaj-1b39ad2396ca4451a1be6e672b97725b2021-09-25T05:09:53ZengElsevieriScience2589-00422021-09-01249102962ePTFE reinforced, sulfonated aromatic polymer membranes enable durable, high-temperature operable PEMFCsZhi Long0Kenji Miyatake1Clean Energy Research Center, University of Yamanashi, Yamanashi 400-8510, Japan; Department of Applied Chemistry, Waseda University, Tokyo 169-8555, JapanClean Energy Research Center, University of Yamanashi, Yamanashi 400-8510, Japan; Fuel Cell Nanomaterials Center, University of Yamanashi, Yamanashi 400-8510, Japan; Department of Applied Chemistry, Waseda University, Tokyo 169-8555, Japan; Corresponding authorSummary: Sulfonated polyphenylene (SPP)-based ionomers have been developed for electrochemical applications in recent years due to their inherent thermal and chemical stability. However, the difficult synthesis, limited solubility, and rigid backbone obstructs their progress. Herein, a new monomer, 3,3″-dichloro-2′,3′,5′,6′-tetrafluoro-1,1':4′,1″-terphenyl (TP-f) with high polymerization reactivity was designed and polymerized with sulfonated phenylene monomer to prepare SPP-based ionomers (SPP-TP-f) with high ion exchange capacity up to 4.5 mequiv g−1. The resulting flexible membranes were more proton conductive than Nafion (state-of-the-art proton exchange membrane) even at 120°C and 20% RH. Unlike typical SPP ionomers, SPP-TP-f 5.1 was soluble in ethanol and thus, could be reinforced with double expanded polytetrafluorethylene thin layers to obtain SPP-TP-f 5.1/DPTFE membrane. SPP-TP-f 5.1/DPTFE showed superior fuel cell performance to that of Nafion, in particular, at low humidity (30% RH, > 100°C) and reasonable durability under the severe accelerated conditions combining OCV hold and humidity cycling tests.http://www.sciencedirect.com/science/article/pii/S2589004221009305ChemistryElectrochemistryElectrochemical energy conversionMaterials scienceEnergy materials
collection DOAJ
language English
format Article
sources DOAJ
author Zhi Long
Kenji Miyatake
spellingShingle Zhi Long
Kenji Miyatake
ePTFE reinforced, sulfonated aromatic polymer membranes enable durable, high-temperature operable PEMFCs
iScience
Chemistry
Electrochemistry
Electrochemical energy conversion
Materials science
Energy materials
author_facet Zhi Long
Kenji Miyatake
author_sort Zhi Long
title ePTFE reinforced, sulfonated aromatic polymer membranes enable durable, high-temperature operable PEMFCs
title_short ePTFE reinforced, sulfonated aromatic polymer membranes enable durable, high-temperature operable PEMFCs
title_full ePTFE reinforced, sulfonated aromatic polymer membranes enable durable, high-temperature operable PEMFCs
title_fullStr ePTFE reinforced, sulfonated aromatic polymer membranes enable durable, high-temperature operable PEMFCs
title_full_unstemmed ePTFE reinforced, sulfonated aromatic polymer membranes enable durable, high-temperature operable PEMFCs
title_sort eptfe reinforced, sulfonated aromatic polymer membranes enable durable, high-temperature operable pemfcs
publisher Elsevier
series iScience
issn 2589-0042
publishDate 2021-09-01
description Summary: Sulfonated polyphenylene (SPP)-based ionomers have been developed for electrochemical applications in recent years due to their inherent thermal and chemical stability. However, the difficult synthesis, limited solubility, and rigid backbone obstructs their progress. Herein, a new monomer, 3,3″-dichloro-2′,3′,5′,6′-tetrafluoro-1,1':4′,1″-terphenyl (TP-f) with high polymerization reactivity was designed and polymerized with sulfonated phenylene monomer to prepare SPP-based ionomers (SPP-TP-f) with high ion exchange capacity up to 4.5 mequiv g−1. The resulting flexible membranes were more proton conductive than Nafion (state-of-the-art proton exchange membrane) even at 120°C and 20% RH. Unlike typical SPP ionomers, SPP-TP-f 5.1 was soluble in ethanol and thus, could be reinforced with double expanded polytetrafluorethylene thin layers to obtain SPP-TP-f 5.1/DPTFE membrane. SPP-TP-f 5.1/DPTFE showed superior fuel cell performance to that of Nafion, in particular, at low humidity (30% RH, > 100°C) and reasonable durability under the severe accelerated conditions combining OCV hold and humidity cycling tests.
topic Chemistry
Electrochemistry
Electrochemical energy conversion
Materials science
Energy materials
url http://www.sciencedirect.com/science/article/pii/S2589004221009305
work_keys_str_mv AT zhilong eptfereinforcedsulfonatedaromaticpolymermembranesenabledurablehightemperatureoperablepemfcs
AT kenjimiyatake eptfereinforcedsulfonatedaromaticpolymermembranesenabledurablehightemperatureoperablepemfcs
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