%0 Generic
%A Martin Fernandez, Santiago
%A Jensen, Jens Oluf
%A Li, Qingfeng
%A Garcia-Ybarra, Pedro Luis
%A Gimeno, Jose Luis Castillo
%D 2020
%T Data for "Feasibility of ultra-low Pt loading electrodes for high temperature proton exchange membrane fuel cells based in phosphoric acid-doped membrane"
%U https://data.dtu.dk/articles/dataset/Data_for_Feasibility_of_ultra-low_Pt_loading_electrodes_for_high_temperature_proton_exchange_membrane_fuel_cells_based_in_phosphoric_acid-doped_membrane_/11535678
%R 10.11583/DTU.11535678.v1
%2 https://data.dtu.dk/ndownloader/files/20948070
%2 https://data.dtu.dk/ndownloader/files/20948067
%2 https://data.dtu.dk/ndownloader/files/20948061
%2 https://data.dtu.dk/ndownloader/files/20948064
%K Ultra-low Pt loading
%K HT-PEMFC
%K PBI
%K Ultrasonic spraying
%K electrospraying
%K Electrochemistry
%X Data corresponding to the polarization and power density curves of PBI-based MEAs with ultra-low Pt loading electrodes (0.025 - 0.1 mgPtcm-2). The tests were performed in HT-PEMFCs under ambient pressure, H2/Air and 180ÂșC. Data comprise the optimization of the ultra-low Pt loading of the anode electrode, the optimum catalyst (in terms of Pt/C wt.% concentration), the effect of the binder content (PTFE) of the electrodes and the influence of the deposition method (ultrasonic-spraying, electrospraying and airbrushing) on the performance of ultra-low Pt loaded electrodes for HT-PEMFCs.
%I Technical University of Denmark