摘要
Developing novel oxygen reduction reaction(ORR)catalysts with high activity is urgent for proton exchange membrane fuel cells.Herein,we investigated a group of size-dependent Pt-based catalysts as promising ORR catalysts by density functional theory calculations,ranging from single-atom,nanocluster to bulk Pt catalysts.The results showed that the ORR overpotential of these Pt-based catalysts increased when its size enlarged to the nanoparticle scale or reduced to the single-atom scale,and the Pt_(38)cluster had the lowest ORR overpotential(0.46 V)compared with that of Pt_(111)(0.57 V)and single atom Pt(0.7 V).Moreover,we established a volcano curve relationship between the ORR overpotential and binding energy of O*(ΔE_(O*),confirming the intermediate species anchored on Pt38cluster with suitable binding energy located at top of volcano curve.The interaction between intermediate species and Pt-based catalysts were also investigated by the charge distribution and projected density of state and which further confirmed the results of volcano curve.
基金
supported by the National Natural Science Foundation of China(92061125,21978294)
Beijing Natural Science Foundation(Z200012)
Jiangxi Natural Science Foundation(20212ACB213009)
DNL Cooperation Fund,CAS(DNL201921)
Self-deployed Projects of Ganjiang Innovation Academy,Chinese Academy of Sciences(E055B003)
Hebei Natural Science Foundation(B2020103043)。
