Internal and interfacial structure analysis of graft‐type fluorinated polymer electrolyte membranes by small‐angle X‐ray scattering in the high‐q range

Internal and interfacial structure analysis of graft‐type fluorinated polymer electrolyte membranes by small‐angle X‐ray scattering in the high‐q range

The hierarchical structures of poly(styrenesulfonic acid)‐grafted poly(ethylene‐co‐tetrafluoroethylene) polymer electrolyte membranes (ETFE‐PEMs) with different scale ranges including lamellar spacing, interfacial thickness, and intra‐structure of conducting layers were evaluated by small‐angle X‐ra...

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Veröffentlicht in:Journal of applied polymer science 2020-09, Vol.137 (35), p.n/a
Hauptverfasser: Tap, Tran D., Nguyen, La L., Hasegawa, Shin, Sawada, Shin‐ichi, Luan, Le Q., Maekawa, Yasunari
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Sprache:eng
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batteries and fuel cells
Electrolytes
Ethylene tetrafluoroethylenes
Fluoropolymers
Grafting
Ion exchange
Lamellar structure
Materials science
Membrane structures
Membranes
polyelectrolytes
Polymers
Scattering
Structural analysis
Structural hierarchy
surfaces and interfaces
Thickness
X‐ray
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container_issue 35
container_start_page
container_title Journal of applied polymer science
container_volume 137
creator Tap, Tran D.
Nguyen, La L.
Hasegawa, Shin
Sawada, Shin‐ichi
Luan, Le Q.
Maekawa, Yasunari
description The hierarchical structures of poly(styrenesulfonic acid)‐grafted poly(ethylene‐co‐tetrafluoroethylene) polymer electrolyte membranes (ETFE‐PEMs) with different scale ranges including lamellar spacing, interfacial thickness, and intra‐structure of conducting layers were evaluated by small‐angle X‐ray scattering in terms of background scattering (I B(q)). First, I B(q) was roughly estimated by modifying Ruland's method and then optimized to avoid overestimation using a “contribution factor,” which is defined as the contribution of I B(q) to the observed scattering intensities over the entire q range. Then, I B(q) was optimized again by using the model for the deviation from Porod's law also proposed by Ruland to select proper q‐range for interfacial thickness evaluation. The lamellar spacing, which is observed in the low‐q range, was not altered by background correction. In contrast, in the high‐q range, the interfacial thickness and the internal structures can be estimated only after correction for the background scattering data. The interfacial thickness of the final membranes (ETFE‐PEMs) is affected by both the graft‐polymerization and sulfonation processes and because the change in membrane structures is observed during propagation steps at lower ion exchange capacity (IEC) range (IECs
doi_str_mv 10.1002/app.49029
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First, I B(q) was roughly estimated by modifying Ruland's method and then optimized to avoid overestimation using a “contribution factor,” which is defined as the contribution of I B(q) to the observed scattering intensities over the entire q range. Then, I B(q) was optimized again by using the model for the deviation from Porod's law also proposed by Ruland to select proper q‐range for interfacial thickness evaluation. The lamellar spacing, which is observed in the low‐q range, was not altered by background correction. In contrast, in the high‐q range, the interfacial thickness and the internal structures can be estimated only after correction for the background scattering data. The interfacial thickness of the final membranes (ETFE‐PEMs) is affected by both the graft‐polymerization and sulfonation processes and because the change in membrane structures is observed during propagation steps at lower ion exchange capacity (IEC) range (IECs &lt; 2.4 mmol/g), which should affect the mechanical strength of graft‐type PEMs. The hierarchical structures of graft‐type PEMs were investigated by small‐angle X‐ray scattering (SAXS) in the high‐q range in terms of background scattering. The interfacial thicknesses and intra‐structures but not lamellar structures were affected by background correction. 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subjects batteries and fuel cells
Electrolytes
Ethylene tetrafluoroethylenes
Fluoropolymers
Grafting
Ion exchange
Lamellar structure
Materials science
Membrane structures
Membranes
polyelectrolytes
Polymers
Scattering
Structural analysis
Structural hierarchy
surfaces and interfaces
Thickness
X‐ray
title Internal and interfacial structure analysis of graft‐type fluorinated polymer electrolyte membranes by small‐angle X‐ray scattering in the high‐q range
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