On the Methanol Permeability through Pristine Nafion® and Nafion/PVA Membranes Measured by Different Techniques. A Comparison of Methodologies

Mollá, Sergio; Compañ, Vicente; Lafuente, S. Luis; Prats, J.

doi:10.1002/fuce.201100004

Cited by 20 publications

(17 citation statements)

References 34 publications

(38 reference statements)

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“…For example, with the [ 100] addition of cross-linked PVA nanofibers, the proton conductivity of Nafion/PVA composite membranes was reduced to 0.025 S/cm compared with 0.096 S/cm for Nafion 117. This value could be further reduced to around 0.01 S/cm with IEC value reduced from 0.58 to 0.33 meq/g, compared with the IEC value of 0.91 meq/g for Nafion 117 [73][74][75][76]. Similar phenomenon was evident with the use of Nafion/PVDF [77], Nafion/SiO 2 -coated polyetherimide composite membranes [39], etc., as the proton exchange membranes.…”

Section: Electrospun Electrolyte Membranessupporting

confidence: 79%

“…Similar phenomenon was evident with the use of Nafion/PVDF [77], Nafion/SiO 2 -coated polyetherimide composite membranes [39], etc., as the proton exchange membranes. In addition, with the filling of longrange one-dimensional nanofibrous materials, a series of other properties of the membranes were significantly improved, such as the mechanical properties [73][74][75][76], hydrolytic stability [79], reduced methanol crossover [73][74][75][76], and so forth.…”

Section: Electrospun Electrolyte Membranesmentioning

confidence: 99%

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Electrospun Nanofibers for Design and Fabrication of Electrocatalysts and Electrolyte Membranes for Fuel cells

Lin¹,

Yao²,

Zhang³

2014

Nanostructure Science and Technology

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In the past decades, in response to the energy needs of modern society and emerging ecological concerns, the pursuit of novel, low-cost, and environmentally friendly energy conversion and storage systems has raised significant interest. Among these systems, fuel cells have gained much attention for their high efficiency and high power density, with low greenhouse gas emission. As one of the most promising and versatile fabrication methods for one-dimensional mesostructured nanomaterials composed of organic, inorganic, metallic, or hybrid components prepared as randomly or orientedly arranged continuous nanofibrous mats with possibilities of ordered internal morphologies such as core-sheath, hollow, or porous fibers, or even multichanneled microtubes, electrospinning has been widely investigated to fabricate electrocatalysts and electrolyte materials applied in fuel cells because of their dimensional, directional, and compositional flexibility. In this chapter, the application of electrospun nanofibers for the specific design and fabrication of different components is reviewed in detail. Particular progresses with the use of electrospun nanofibers on improved fuel cell performance, such as power density, ionic conductivity, interfacial resistance, and chemical stability, as well as mechanical strength are emphasized, which, as we hope, can trigger further development and evolution of fuel cells as one potential energy conversion device and system. Zhan Lin and Yingfang Yao contributed equally to this chapter.

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Section: Electrospun Electrolyte Membranessupporting

confidence: 79%

Section: Electrospun Electrolyte Membranesmentioning

confidence: 99%

Electrospun Nanofibers for Design and Fabrication of Electrocatalysts and Electrolyte Membranes for Fuel cells

Lin¹,

Yao²,

Zhang³

2014

Nanostructure Science and Technology

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“…A typical 2-cell experimental setup [43] was used to measure the coefficient of methanol permeability across the SPEEK-35%PVA and nanocomposite membranes as a function of crosslinking temperature. The donor chamber (D) was filled with a 2 M aqueous solution of methanol, while the receptor chamber (R) was filled with distilled water.…”

Section: Methanol Permeabilitymentioning

confidence: 99%

Nanocomposite SPEEK-based membranes for Direct Methanol Fuel Cells at intermediate temperatures

Mollá

Compañ

2015

Journal of Membrane Science

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Novel nanocomposite membranes were prepared by infiltration of a blend of sulfonated PEEK (SPEEK) with polyvinyl alcohol (PVA), using water as solvent, into electrospun nanofibers of SPEEK blended with polyvinyl butyral (PVB). The membranes were characterized for their application on Direct Methanol Fuel Cells (DMFCs) operating at moderate temperatures (>80 ºC). An important role of the solvent on the crosslinking temperature for the SPEEK-PVA system was observed. A mat of hydrated SPEEK-30%PVB nanofibers revealed a higher proton conductivity in comparison with a dense membrane of similar composition. Incorporation of the nanofiber mats to the SPEEK-35%PVA matrix provided mechanical stability, methanol barrier properties and certain proton conductivity up to a crosslinking temperature of 120 ºC. Not remarkable effect of the nanofibers was found above that crosslinking temperature. The combined effect of the nanofibers and crosslinking temperature on the properties of the membranes is discussed. DMFC performance experiments concluded promising results for this new low-cost type of membranes, although further optimization steps are still required.

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“…This is ascribed to the diluted density of proton conductive groups in the organic − inorganic hybrid membranes. On the other hand, the modification of proton exchange membranes by using different organic materials such as polyvinyl alcohol (PVA), polypyrrole, chitosan, polyethylene oxide (PEO) and cyclodextrin has been reported in the literature. Nicholas WD et al prepared blend membranes of Nafion and PVA, and the membranes exhibited a decrease in methanol permeability by a factor of 3 compared with pure Nafion .…”

Section: Introductionmentioning

confidence: 99%

Regulation of micromorphology and proton conductivity of sulfonated polyimide/crosslinked PNIPAm semi‐interpenetrating networks by hydrogen bonding

Geng

Tong

et al. 2014

Polymer International

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On the Methanol Permeability through Pristine Nafion® and Nafion/PVA Membranes Measured by Different Techniques. A Comparison of Methodologies

Cited by 20 publications

References 34 publications

Electrospun Nanofibers for Design and Fabrication of Electrocatalysts and Electrolyte Membranes for Fuel cells

Electrospun Nanofibers for Design and Fabrication of Electrocatalysts and Electrolyte Membranes for Fuel cells

Nanocomposite SPEEK-based membranes for Direct Methanol Fuel Cells at intermediate temperatures

Regulation of micromorphology and proton conductivity of sulfonated polyimide/crosslinked PNIPAm semi‐interpenetrating networks by hydrogen bonding

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