Facile deposition of Pt nanoparticles on Sb doped SnO2 support with outstanding active surface area for the oxygen reduction reaction

Understanding the influence of the support on the electrocatalytic behaviour of platinum is key to the development of novel Pt oxide catalysts for the oxygen reduction reaction ORR . For studies to isolate these effects, highly dispersed supported Pt nanoparticles with well controlled particle sizes are required. In this study, we demonstrate a novel preparation process for Pt oxide catalysts, with small Pt nanoparticles 2.5 3.5 nm , supported on a commercial Sb SnO2 ATO nanopowder, with a very high utilization of the Ptprecursor. The organometallic chemical deposition method produces catalyst nanoparticles with a homogeneous distribution over the surface of the support even at high Pt metal loadings. Additionally, by using a mild hydrogen reduction treatment of the oxide support prior to Pt deposition, significantly smaller Pt nanoparticles were obtained with an outstanding mass specific electrochemically active surface area exceeding 100 m2 g amp; 8722;1. Furthermore, by varying the Pt metal loading, several fundamental electrocatalytic effects that strongly influence the Pt ATO system were distinguished. Good electrochemical stability during high potential cycling was observed and was attributed to potential dependent in situ conductivity switching of the ATO support. In turn, ORR activities of the Pt ATO catalysts were found to be influenced by a combination of Pt particle size effects, ATO support in situ conductivity limitations at PEFC operation potentials, and electrocatalytic metal support interactions. Therefore, in addition to demonstrating a powerful method for the preparation of exceptionally high surface area Pt oxide catalysts, the present study contributes to the detailed understanding of the interplay between various phenomena that influence the electrocatalytic activity and stability of Pt oxide systems for the ORR. Furthermore, the novel preparation approach for Pt metal oxide catalysts could be of major interest for catalyst preparation in other fields of electrocatalysis and heterogeneous catalysi