Nano Materials Science (Jun 2023)

Tuned d-band states over lanthanum doped nickel oxide for efficient oxygen evolution reaction

  • Ziyi Xiao,
  • Wei Zhou,
  • Baopeng Yang,
  • Chengan Liao,
  • Qing Kang,
  • Gen Chen,
  • Min Liu,
  • Xiaohe Liu,
  • Renzhi Ma,
  • Ning Zhang

Journal volume & issue
Vol. 5, no. 2
pp. 228 – 236

Abstract

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The d-band state of materials is an important descriptor for activity of oxygen evolution reaction (OER). For NiO materials, there is rarely concern about tuning their d-band states to tailor the OER behaviors. Herein, NiO nanocrystals with doping small amount of La3+ were used to regulate d-band states for promoting OER activity. Density of states calculations based on density functional theory revealed that La3+ doping produced upper shift of d-band center, which would induce stronger electronic interaction between surface Ni atoms and species of oxygen evolution reaction intermediates. Further density functional theory calculation illustrated that La3+ doped NiO possessed reduced Gibbs free energy in adsorbing species of OER intermediate. Predicted by theoretical calculations, trace La3+ was introduced into crystal lattice of NiO nanoparticles. The La3+ doped NiO nanocrystal showed much promoted OER activity than corresponding pristine NiO product. Further electrochemical analysis revealed that La3+ doping into NiO increased the intrinsic activity such as improved active sites and reduced charge transfer resistance. The in-situ Raman spectra suggested that NiO phase in La3+ doped NiO could be better maintained than pristine NiO during the OER. This work provides an effective strategy to tune the d-band center of NiO for efficient electrocatalytic OER.

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