Abstract
A series of proton-conducting composites has been synthesized from PVA/PAMPS [poly(vinyl alcohol)/poly(2-acrylamido-2-methyl-1-propanesulfonic acid)] using high molecular weight PVA (HMw-PVA). By applying high molecular weight PVA as a polymer matrix, a greater hydrophobicity of the membranes emerged, which endows them with reduced water uptake (70-90%) but high proton conductivity (0.06-0.1 S cm - 1 ), low methanol permeability (1/3 to 1/5 that of Nafion 117), and excellent oxidative stability towards Fenton's reagent. A DMFC fabricated with the above membrane showed a high power density of 15.8 mW cm - 2 at 30 °C, which reached 42.9 mW cm - 2 at 80 °C. An initial lifetime performance assessment in DMFC mode yielded a value of 70 h for stable cell operation.
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