Study of the influence of Nafion/C composition on electrochemical performance of PEM single cells with ultra-low platinum load |
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Authors: | Leandro González Rodríguez Roberto Campana Prada Margarita Sanchez-Molina Tonatiuh Alejandro Rodríguez Victoria |
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Affiliation: | 1. Centro Nacional del Hidrógeno (CNH2), Prolongación Fernando El Santo s/n, 13500 Puertollano, Ciudad Real, Spain;2. Instituto Politécnico Nacional, ESIME-Unidad Azcapotzalco., SEPI, Av. de las Granjas 682, Col. Santa Catarina, CP 02250, Ciudad de México, Mexico |
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Abstract: | The electrochemical performance of membrane electrode assemblies (MEAs) with ultra-low platinum load (0.02 mgPt cm?2) and different compositions of Nafion/C in the catalytic layer have been investigated. The electrodes were fabricated depositing the catalytic ink, prepared with commercial catalyst (HiSPEC 2000), onto the gas diffusion layers by wet powder spraying. The MEAs were electrochemically tested using current-voltage curves and electrochemical impedance spectroscopy measurements. The experiments were carried out at 70 °C in H2/O2 and H2/air as reactant gases at 1 and 2 bar pressure and 100% of relative humidity. For all MEAs tested, power density increases when the gasses pressure is increased from 1 to 2 bar. On the other hand, power density also increased when oxygen is used instead of air as oxidant gas in cathode. The lower power density (34 mW cm?2) and power per Pt loading (0.86 kW gPt?1) corresponds to the MEA prepared without Nafion in anode and cathode catalytic layers working with hydrogen and air at 1 bar pressure as reactants gas. The MEA with 30% wt Nafion/C reached the highest power density (422 mW cm?2) and power per Pt loading (10.60 kW gPt?1) using hydrogen and oxygen at 2 bar pressure. Finally, electrode surface microstructure and cross sections of MEAs were analyzed by Scanning Electron Microscopy (SEM). Examination of the electrodes, revealed that the most uniform ionomer network surface corresponds to the electrode with 40 wt% Nafion/C, and MEA ionomer-free catalytic layer shows delamination, it leads to low electrochemical performance. |
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Keywords: | PEM fuel cell Membrane electrode assembly Nafion/carbon composition Ultra-low platinum load Wet power spraying Catalyst layer |
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