The aim of this work is to improve the porosity of gas diffusion layers (GDLs) for proton exchange membrane fuel cell electrodes. These GDLs are made by twin-screw extrusion process from conductive formulations composed of polyamide11 (PA11)/polystyrene (PS) as the polymer matrix phase and an appropriate mixture of carbon black (CB) and graphite (GR) as the conductive additives. Final GDL porosity, especially macroporosity, was generated by selective extraction of the PS phase using adequate solvents. Since the generation of pores was found to be directly related to blend morphology, several blend compositions were studied and small amounts of montmorillonite (MMT) clay were used as compatibilizer to improve the dispersion of the PS phase inside the PA11. It was observed that, although GDL volume porosity was not or slightly affected by the addition of MMT compatibilizer, its pore specific surface area was clearly increased. For GDLs made from a blend composed of of PA11/PS (30/70) and of GB/GR (57/43), an increase from (with no MMT) to around (with MMT) was obtained. This improvement within the addition of MMT was attributed to the modification of the dispersion state of PS phase. Such modification led to a higher connectivity of pores and consequently more accessibility to the micro/mesopores of CB and GR. The major changes observed with the incorporation of MMT compatibilizer were obtained for the small pore sizes (in the range of 10–400 nm). Depending on MMT content, a considerable shift of pore size distribution in this range to smaller or higher values was obtained. Then the MMT compatibilization could be considered as an interesting route to tailor GDL porous properties.
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e-mail: frej.mighri@gch.ulaval.ca
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May 2009
This article was originally published in
Journal of Fuel Cell Science and Technology
Special Section On The 2Nd European Fuel Cell Technology And Applications Conference
Development of Micro- to Macropores in Conductive Polymer-Based Gas Diffusion Layers for Proton Exchange Membrane Fuel Cells
Yves Deyrail,
Yves Deyrail
Center for Applied Research on Polymers and Composites (CREPEC), Department of Chemical Engineering,
Laval University
, Quebec, QC, G1K 7P4, Canada
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Frej Mighri,
Frej Mighri
Center for Applied Research on Polymers and Composites (CREPEC), Department of Chemical Engineering,
e-mail: frej.mighri@gch.ulaval.ca
Laval University
, Quebec, QC, G1K 7P4, Canada
Search for other works by this author on:
Serge Kaliaguine
Serge Kaliaguine
Department of Chemical Engineering,
Laval University
, Quebec, QC, G1K 7P4, Canada
Search for other works by this author on:
Yves Deyrail
Center for Applied Research on Polymers and Composites (CREPEC), Department of Chemical Engineering,
Laval University
, Quebec, QC, G1K 7P4, Canada
Frej Mighri
Center for Applied Research on Polymers and Composites (CREPEC), Department of Chemical Engineering,
Laval University
, Quebec, QC, G1K 7P4, Canadae-mail: frej.mighri@gch.ulaval.ca
Serge Kaliaguine
Department of Chemical Engineering,
Laval University
, Quebec, QC, G1K 7P4, CanadaJ. Fuel Cell Sci. Technol. May 2009, 6(2): 021309 (9 pages)
Published Online: March 5, 2009
Article history
Received:
February 1, 2008
Revised:
July 26, 2008
Published:
March 5, 2009
Citation
Deyrail, Y., Mighri, F., and Kaliaguine, S. (March 5, 2009). "Development of Micro- to Macropores in Conductive Polymer-Based Gas Diffusion Layers for Proton Exchange Membrane Fuel Cells." ASME. J. Fuel Cell Sci. Technol. May 2009; 6(2): 021309. https://doi.org/10.1115/1.3080558
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