Abstract

Abstract In situ electrogeneration of hydrogen peroxide through the oxygen reduction reaction (ORR) represents a potentially greener route for wastewater treatment. However, the development of adequate catalysts following a two‐electron pathway with high selectivity and low overpotential is still of great importance. To address this issue, nanoparticles of zirconium oxide supported on reduced graphene oxide (rGO) sheets were prepared through a hydrothermal reaction, and the composite catalysts were tested for the ORR in both acid and alkaline media. The presence of zirconium oxides (ZrO 2‐ x and ZrO 2 ) significantly improved the activity of rGO for the ORR and its selectivity toward H 2 O 2 electrogeneration. Indeed, an increase from 73.7 to 89.5% was obtained in acid solution, and from 72.9 to 83.1% in alkaline medium. The high activity of the composite catalysts is assigned to the synergistic effect between ZrO 2‐ x and rGO. The highest selectivity for H 2 O 2 electrogeneration was correlated to the presence of ZrO 2 phase. In addition, the zirconia‐rGO catalysts are stable and reusable. Therefore, these composites are very promising catalysts to be used in gas diffusion electrodes for advanced oxidation processes.