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Perfluorinated sulfonic acid (PFSA) ionomers have been widely used as membranes in the fields of green power generation and electrolysis. In spite of their high ion-conducting properties, it is difficult to apply them in the freestanding membrane state to harsh operation conditions owing to their chemical and electrochemical degradation issues. A promising membrane concept to satisfy this purpose would be “pore-filling membrane” composed of PFSA ionomers and porous PTFE support films. In this study, the porous PTFE support film treated with a cheap hydrophilic polymer is used as a reinforced material. Interestingly, the resulting PFSA-PTFE pore-filling membranes exhibit an extremely high proton conductivity with a fairly reduced ionomer content, which may give a valuable information to design a desirable pore-filling membrane.
