Journal
SOLID STATE IONICS
Volume 178, Issue 13-14, Pages 937-942Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.ssi.2007.04.005
Keywords
organic-inorganic composite; phosphosilicate gel; polyvinyl alcohol; proton conductivity; methanol permeability; DMFC
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Proton conductive composite membranes were prepared by dispersing phosphosilicate colloidal particles into a polyvinyl alcohol (PVA) matrix. The synthesized membranes were flexible with film thickness between 80 and 200 gm. SEM micrographs show that the phosphosilicate particles are homogenously dispersed, whilst the PVA crosslinks with the inorganic phase and fills in the gaps between the particles. Proton conductivity increases by several orders of magnitude with increasing humidity, reaching a maximum of 0.02 S/cm at ambient temperature and 100% relativity humidity (RE). The activation energy is reduced to 7.3 kJ/mol with RH increasing to 90% in the tested temperature range 2070 degrees C. From structural characterization and conductivity measurements, it is deduced that proton transport occurs by both the Grotthuss and diffusion mechanisms. The methanol permeability was found 5-10 times lower than Nation 117. The composite membrane was tested in the direct methanol fuel cell (DMFC). The preliminary results show the membrane is a promising candidate for PEM for use in DMFC systems. (C) 2007 Elsevier B.V. All rights reserved.
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