Electrocatalysis for Oxygen Reduction Reaction on EDTAFeNa and Melamine co-Derived Self-Supported Fe-N-C Materials

Abstract: To explore high-performing alternatives to platinum-based catalysts is highly desirable for lowering costs and thus promoting fuel cell commercialization. Herein, self-supported Fe-N-C materials were prepared by the pyrolysis of dual precursors including EDTA ferric sodium (EDTAFeNa) and melamine (MA), followed by acid-leaching and final annealing. Towards an oxygen reduction reaction (ORR) in 0.1 M KOH, the as-prepared MA/EDTAFeNa-HT2 delivered onset (Eonset) and half-wave (E1/2) potentials of 0.97 and 0.84 V… Show more

“…Most of these papers deal with fuel cell electrocatalysts, mainly addressing the oxygen reduction reaction (ORR) process. Shen et al [1] explored self-supported Fe-N-C materials, as alternatives to Pt, for the ORR. The catalysts were prepared by the pyrolysis of dual precursors, including EDTA ferric sodium (EDTAFeNa) and melamine (MA), followed by acid-leaching and final annealing.…”

Electrocatalysts for Energy Conversion and Storage Devices

“…Most of these papers deal with fuel cell electrocatalysts, mainly addressing the oxygen reduction reaction (ORR) process. Shen et al [1] explored self-supported Fe-N-C materials, as alternatives to Pt, for the ORR. The catalysts were prepared by the pyrolysis of dual precursors, including EDTA ferric sodium (EDTAFeNa) and melamine (MA), followed by acid-leaching and final annealing.…”

Electrocatalysts for Energy Conversion and Storage Devices

Effect of Co-Fe alloy nanoparticles on the surface electronic structure of molybdenum disulfide nanosheets and its application as a bifunctional catalyst for rechargeable zinc air battery