期刊
EXPRESS POLYMER LETTERS
卷 16, 期 10, 页码 1065-1082出版社
BUDAPEST UNIV TECHNOL & ECON
DOI: 10.3144/expresspolymlett.2022.78
关键词
polymer membranes; direct methanol fuel cell; proton exchange membrane; composite membrane electrolyte; poly(vinyl alcohol-co-styrenesulfonic acid)
资金
- Science and Engineering Research Board (SERB) , New Delhi, India
- ECR Award [ECR/2017/000028]
The study introduced a composite PEM, fabricated using a deep coating technique to enhance proton conductivity and reduce methanol permeability between a sodium sulfonate copolymer and sulfonated polypropylene-based non-woven fabric. The results showed that increasing the number of S-NWF coating layers can improve proton conductivity, reduce methanol permeability, and achieve higher peak power density.
Various materials have been examined over the last several decades to fabricate proton exchange membranes (PEMs) for direct methanol fuel cells (DMFCs), with the objective of achieving high selectivity (i.e., the ratio of proton conduction to fuel permeability). Ideally, a PEM for DMFC must demonstrate higher proton conductivity, as well as lower methanol permeability, in comparison to the commercial Nafion membranes. With these objectives, this research paper reports the fabrication of a composite PEM comprising glutaraldehyde-crosslinked poly(vinyl alcohol-co-styrenesulfonic acid) and sulfonated polypropylene-based non-woven fabric (S-NWF) by deep coating technique. The resulting PEMs were thoroughly characterized to find physicochemical and electrochemical properties. Key findings obtained with these composite PEMs are (a) exhibition of dimensional stability in hot water (at 80 degrees C), (b) improved proton conductivity (i.e., 0.12 S center dot cm(-1) at 80 degrees C), and reduced methanol permeability (i.e., 3.91 center dot 10(-8) cm(2)center dot s(-1)) upon increasing the number of coating layers on the S-NWF, (c) achievement of a membrane selectivity value of 2.61 center dot 10(6) S center dot s center dot cm(-3), and (d) the fact that 6 layers of coating resulted in producing the highest peak power density of 62.32 W center dot m(-2) and a current density of 540 A center dot m(-2).
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