质子交换膜燃料电池
材料科学
催化作用
燃料电池
金属间化合物
化学工程
合金
冶金
化学
有机化学
工程类
作者
Philipp A. Heizmann,Hien Q. Nguyen,Miriam von Holst,Andreas Fischbach,Mitja Kostelec,Francisco Javier Gonzalez Lopez,Marjan Bele,Luka Pavko,Tina Đukić,Martin Šala,Francisco Ruiz-Zepeda,Carolin Klose,Matija Gatalo,Nejc Hodnik,Severin Vierrath,Matthias Breitwieser
出处
期刊:RSC Advances
[The Royal Society of Chemistry]
日期:2023-01-01
卷期号:13 (7): 4601-4611
被引量:3
摘要
The design of catalysts with stable and finely dispersed platinum or platinum alloy nanoparticles on the carbon support is key in controlling the performance of proton exchange membrane (PEM) fuel cells. In the present work, an intermetallic PtCo/C catalyst is synthesized via double-passivation galvanic displacement. TEM and XRD confirm a significantly narrowed particle size distribution for the catalyst particles compared to commercial benchmark catalysts (Umicore PtCo/C). Only about 10% of the mass fraction of PtCo particles show a diameter larger than 8 nm, whereas this is up to or even more than 35% for the reference systems. This directly results in a considerable increase in electrochemically active surface area (96 m2 g-1vs. >70 m2 g-1), which confirms the more efficient usage of precious catalyst metal in the novel catalyst. Single-cell tests validate this finding by improved PEM fuel cell performance. Reducing the cathode catalyst loading from 0.4 mg cm-2 to 0.25 mg cm-2 resulted in a power density drop at an application-relevant 0.7 V of only 4% for the novel catalyst, compared to the 10% and 20% for the commercial benchmarks reference catalysts.
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