Pt alloy oxygen-reduction electrocatalysts: Synthesis, structure, and property

Publication date: May 2020Source: Chinese Journal of Catalysis, Volume 41, Issue 5Author(s): Xiao Xia Wang, Joshua Sokolowski, Hui Liu, Gang WuProton exchange membrane fuel cells (PEMFCs) are considered a promising power source for electric vehicles and stationary residential applications. However, current PEMFCs have several problems that require solutions, including high cost, insufficient power density, and limited performance durability. A kinetically sluggish oxygen reduction reaction (ORR) is primarily responsible for these issues. The development of advanced Pt-based catalysts is crucial for solving these problems if the large-scale application of PEMFCs is to be realized. In this review, we summarize the recent progress in the development of PtM alloy (M = Fe, Co, Ni, etc.) catalysts with an emphasis on ordered PtM intermetallic catalysts, which exhibit significantly enhanced activity and stability. In addition to exploring the intrinsic catalytic performance in traditional aqueous electrolytes via engineering nanostructures, morphologies, and crystallinity of PtM particles, we highlight recent efforts to study catalysts under real fuel cell environments by the membrane electrode assembly (MEA).Graphical AbstractPtM alloy nanoparticles with novel architectures, nanostructures, and morphologies along with strengthened metal-support interactions have been considered as the promising cathode catalysts for oxygen reduction reaction in low temperature fuel cells.
Source: Chinese Journal of Catalysis - Category: Chemistry Source Type: research