Cathode Loading Impact on Voltage Cycling Induced PEMFC Degradation: A Voltage Loss Analysis

This study focuses on voltage cycling induced degradation of cathodes with different loading (0.4 and 0.1 mg(Pt)/cm(2)) when applying square wave or triangular wave based accelerated stress tests (ASTs) between 0.6 and 1.0 V-RHE. The degradation of the H-2/O-2 and H-2/air performance upon extended voltage cycling (up to 30000 cycles) was analyzed in terms of the voltage loss contributions from ORR kinetics, O-2 mass transport resistances and proton conduction resistances in the cathode. The extent of cathode thinning due to carbon support corrosion was determined by post mortem electrode thickness measurements. Square waves were found to cause a more rapid loss of ECSA and mass activity compared to triangular waves, which was shown to be due to the longer hold periods at high potentials rather than to the rate of the potential transient. The observed increase of the O2 mass transport resistance with voltage cycling was found to mainly depend on the available Pt surface area, while mass transport resistances due to carbon corrosion were found to be insignificant. Finally, it was shown that by lowering the upper potential limit to 0.85 V-RHE, low-loaded catalyst layers can sustain 30000 potential cycles without degradation of the H-2/air performance. (C) The Author(s) 2018. Published by ECS.