Effect of Different Hydrophobic Agents onto the Surface of Gas Diffusion Layers for PEM-FC
Gallo Stampino, P.
Balzarotti, R.
Cristiani, C.
Dotelli, G.
Guilizzoni, M.
Latorrata, S.
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How to Cite

Gallo Stampino P., Balzarotti R., Cristiani C., Dotelli G., Guilizzoni M., Latorrata S., 2013, Effect of Different Hydrophobic Agents onto the Surface of Gas Diffusion Layers for PEM-FC, Chemical Engineering Transactions, 32, 1603-1608.
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Abstract

In the present work two different hydrophobic agents (i.e. a Perfluoropolyether derivative, PFPE, and a Polytetrafluoroethylene, PTFE) were used to treat the surface of a carbon cloth gas diffusion layer (GDL) . Commercially available products were used in both cases, namely Fluorolink® P56 (supplied by Solvay Solexis s.p.a., Italy) for PPFE and Algoflon® D 1214X (supplied by Solvay Solexis s.p.a., Italy) for PTFE. The behaviour of the PFPE-based hydrophobic coating was compared with that of a standard PTFE one. The properties of a GDL coated with about 1 % wt of PFPE were analysed and compared with those of a 10 % wt PTFE coated GDL. Wettability of the PFPE- and PTFE-based surfaces were analysed by means of contact angle measurement. A simplified axisymmetric drop shape analysis technique was used on sessile drops. Static contact angles and contact angle hysteresis were evaluated at ambient temperature, at 60 °C and at 80 °C. Drop evaporation at the three temperatures was also evaluated. Both the surfaces were found to be highly hydrophobic.
The obtained GDLs were used in a single fuel cell and tested in a lab scale. The cell testing was run at two temperatures (60 °C and 80 °C) with a relative humidity (RH) of the feeding gases of 80/100 %, Hydrogen/Air, respectively. The new PFPE coating sensibly improved the cell performances, and this effect was more evident at 60 °C than 80 °C.
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