Narrow size distribution of Pt nanoparticles covered by an S-doped carbon layer for an improved oxygen reduction reaction in fuel cells

Abstract

Proton exchange membrane fuel cells (PEMFCs) attract immense interest recently; however, the activity and usage amount of the Pt nanoparticles therein pose limitations to their application. We synthesize highly active and durable Pt nanoparticles for the electrocatalytic oxygen reduction reaction (ORR) in fuel cells. In the presence of an S-containing surfactant during the synthesis, the Pt nanoparticles are strongly anchored to the catalyst support, which results in narrow size distribution. Successive heat treatment under reducing conditions provides an S-doped carbon structure as a functional layer of Pt/C, thereby enhancing the durability. The functional layers are able to facilitate the rate-determining step of the ORR by lowering the OOH coverage. The PEMFC power density similar to that of pristine Pt/C achieves using only half Pt amount at the cathode due to the synergetic effect of Pt and S-doped carbon. © 2019