TY - JOUR
T1 - Synthesis of novel electro-catalysts for proton exchange membrane fuel cells
AU - Sharmin, S.
AU - Irulappan, S.
AU - Ilias, Shamsuddin
PY - 2003/1/1
Y1 - 2003/1/1
N2 - The proton exchange membrane fuel cell (PEMFC) is one of the most promising power sources for stand-alone utility and electric vehicle applications. Platinum (Pt) catalyst is used for both fuel and air electrodes in PEMFCs. However, carbon monoxide (CO) contamination of H2 greatly affects electrocatalysts used at the anode of PEMFCs and decreases cell performance. The irreversible poisoning of the anode can occur, even in CO concentrations as low as a few parts per million (ppm). In this work, we synthesized several novel electrocatalysts (Pt/C, Pt/Ru/C, Pt/Mo/C, Pt/Ir, and Pt/Ru/Mo) for PEMFCs. These catalysts were tested for CO tolerance in the H2/air fuel cell, using CO concentrations in the H2 fuel that varies from 10 to 100 ppm. The performance of the electrodes was evaluated by determining the cell potential against current density. The effects of catalyst composition and electrode film preparation method on the performance of PEM fuel cell were also studied. It was found that at 70°C and 3.5-atm pressure at the cathode, Pt-alloy catalyst (10 wt% Pt/Ru/C, 20 wt% Pt/Mo/C) were more CO tolerant than the 20 wt% Pt/C catalyst alone. It was also observed that the spraying method was better than the brushing technique for the preparation of electrode film.
AB - The proton exchange membrane fuel cell (PEMFC) is one of the most promising power sources for stand-alone utility and electric vehicle applications. Platinum (Pt) catalyst is used for both fuel and air electrodes in PEMFCs. However, carbon monoxide (CO) contamination of H2 greatly affects electrocatalysts used at the anode of PEMFCs and decreases cell performance. The irreversible poisoning of the anode can occur, even in CO concentrations as low as a few parts per million (ppm). In this work, we synthesized several novel electrocatalysts (Pt/C, Pt/Ru/C, Pt/Mo/C, Pt/Ir, and Pt/Ru/Mo) for PEMFCs. These catalysts were tested for CO tolerance in the H2/air fuel cell, using CO concentrations in the H2 fuel that varies from 10 to 100 ppm. The performance of the electrodes was evaluated by determining the cell potential against current density. The effects of catalyst composition and electrode film preparation method on the performance of PEM fuel cell were also studied. It was found that at 70°C and 3.5-atm pressure at the cathode, Pt-alloy catalyst (10 wt% Pt/Ru/C, 20 wt% Pt/Mo/C) were more CO tolerant than the 20 wt% Pt/C catalyst alone. It was also observed that the spraying method was better than the brushing technique for the preparation of electrode film.
KW - Carbon support
KW - Catalyst preparation
KW - Non-noble metal catalyst
KW - PEM fuel cells
KW - Pt/Ru/Mo catalyst
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U2 - 10.1081/SS-120022581
DO - 10.1081/SS-120022581
M3 - Conference article
SN - 0149-6395
VL - 38
SP - 2963
EP - 2977
JO - Separation Science and Technology (Philadelphia)
JF - Separation Science and Technology (Philadelphia)
IS - 12-13
ER -