Abstract
Abstract In this study, hydroxide ion mobility is reduced by controlling water movement in the membrane to improve its stability. The water movement was decreased by structuring the water with pore-filling membranes synthesized by confining an anion-exchange polymer in nanopores of a porous substrate. Compared with bare films of the same polymer, the pore-filling membranes showed higher stability subsequent to immersion in water at 100 °C.
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