Journal
MEMBRANES
Volume 13, Issue 9, Pages -Publisher
MDPI
DOI: 10.3390/membranes13090794
Keywords
perfluorinated sulfonic acid ionomer; blended ionomer; proton conductivity; catalyst layer; polymer electrolyte fuel cell
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In this study, blended PFSA ionomers with different equivalent weights were prepared and studied for their applications in fuel cells. The results showed that blended ionomers exhibited higher ion conductivity and proton conduction ability, resulting in improved fuel cell performance.
In this study, blended perfluorinated sulfonic acid (PFSA) ionomers with equivalent weights (EWs, g/mol) of similar to 1000, 980, and 830 are prepared. Catalyst layers (CLs), using blended PFSA ionomers, with different side chain lengths and EWs are investigated and compared to CLs using single ionomers. The ion exchange capacity results confirm that blended ionomers have the target EWs. As a result, blended ionomers exhibit higher ion conductivity than single ionomers at all temperatures due to the higher water uptake of the blended ionomers. This implies that blended ionomers have a bulk structure to form a competent free volume compared to single ionomers. Blended ionomers with short side chains and low EWs can help reduce the activation energy in proton conduction due to enhanced hydrophobic and hydrophilic segregation. In addition, when using the blended ionomer, the CLs form a more porous microstructure to help reduce the resistance of oxygen transport and contributes to lower mass transfer loss. This effect is proven in fuel cell operations at not a lower temperature (70 degrees C) and full humidification (100%) but at an elevated temperature (80 degrees C) and lower relative humidity (50 and 75%). Blended ionomer-based CLs with a higher water uptake and porous CL structure result in improved fuel cell performance with better mass transport than single ionomer-based CLs.
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