摘要
The carbon-based metal-free catalyst is one of the ideal alternatives to Pt as electrocatalysts for oxygen reduction reaction,which can reduce the cost of fuel cells and zinc-air batteries.Here,graphdiyne(GDY),a carbon material with uneven charge distribution,was used as substrate.By doping nitrogen and phosphorus,a N-P-GDY catalyst was prepared,which further regulated the electron structure of GDY.The sheet-like morphology of GDY was preserved in N-P-GDY.The N and P were distributed uniformly in the catalyst,whereas defects and active sites were created by doping N and P,as demonstrated by the element mapping images and Raman spectra.X-Ray photoelectron spectroscopy results indicated N and P existed in many forms in N-P-GDY.The N-P-GDY exhibited higher activity for ORR than only N or P doped GDY,due to the synergistic effect of N and P in N-P-GDY.Moreover,the activity of N-P-GDY changed little after a long time cyclic voltammetry test or injecting methanol in the electrolyte.Besides,the four electrons transfer reaction to produce water was the main process for ORR on N-P-GDY catalysts.
基金
This work was supported by the Fundamental Research Funds of Shandong University,China(No.2020GN046)
the National Natural Science Foundation of China(No.22172090).
