Preparation of Nafion/poly(vinyl alcohol) electro-spun fiber composite membranes for direct methanol fuel cells

[Display omitted] ▶ The films were prepared by electro-spun of PVA then with (CH 2CHO) 2 treatment. ▶ The films were impregnated with Nafion for composite membranes preparation. ▶ The normalized proton resistance value of the membranes is half of Nafion-117. ▶ The normalized methanol permeation rate...

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Bibliographic Details
Published in:Journal of membrane science 2010-12, Vol.365 (1), p.114-122
Main Authors: Lin, Hsiu-Li, Wang, Shr-Hua, Chiu, Chiu-Kai, Yu, T. Leon, Chen, Li-Chun, Huang, Chen-Chiang, Cheng, Tai-Hong, Lin, Jian-Min
Format: Article
Language:English
Subjects:
Direct methanol fuel cell
Electrospin
Nafion
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Summary:[Display omitted] ▶ The films were prepared by electro-spun of PVA then with (CH 2CHO) 2 treatment. ▶ The films were impregnated with Nafion for composite membranes preparation. ▶ The normalized proton resistance value of the membranes is half of Nafion-117. ▶ The normalized methanol permeation rate of the membranes is twice of Nafion-117. ▶ The membrane has high DMFC performance. In this work, we prepared crosslinked poly(vinyl alcohol) (PVA) nano-fiber thin film by electro-spinning from a PVA aqueous solution and then treating the electro-spun fiber film with glutaraldehyde vapor to start crosslinking reaction. The crosslinked PVA nano-fiber thin film is impregnated in a Nafion solution to prepare Nafion/PVA-fiber composite membranes. We show that the optimum PVA content of Nafion/PVA-fiber membrane is ∼10 wt%, which is higher than the 5 wt% PVA content of Nafion/PVA blend membrane reported by DeLuca and Elabd. The introduction of 10 wt% crosslinked PVA nano-fiber in a Nafion membrane allows us to reduce the thickness of the Nafion/PVA-fiber membrane (thickness ∼50 μm) to less than 1/3 of that of Nafion-117 membrane (thickness ∼175 μm) and DeLuca and Elabd's Nafion/5 wt% PVA blend membrane (thickness ∼181 μm) without causing large increment of methanol crossover across the membrane. However, the smaller thickness of Nafion/PVA-fiber membrane causes it to have lower proton resistance than Nafion-117 and Nafion/PVA blend membranes. We show that the Nafion/PVA-fiber membrane consisting of 10 wt% crosslinked PVA nano-fiber has a better DMFC performance than Nafion-117 and Nafion/5 wt% PVA blend membranes.
ISSN:0376-7388
1873-3123
DOI:10.1016/j.memsci.2010.08.045