Catalysis Communications (Nov 2022)

Ultrafine cobalt oxide nanosheets for enhanced high activity towards oxygen evolution reaction

  • Cuimeng Song,
  • Hubin Luo,
  • Xuliang Duan,
  • Yun Li,
  • Yujin Li,
  • Yinhang Yang,
  • Jian Wu,
  • Fang Wang,
  • Fanbin Meng,
  • Jian Zhang

Journal volume & issue
Vol. 171
p. 106520

Abstract

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Cobalt oxide (CoO) nanosheets with a size of about 2.7 nm are prepared. The proper annealing temperatures (200 °C–400 °C) are used to control the conversion of CoO nanosheets to high-ratio hexagonal phases from high-ratio cubic phases at room temperature. The analysis revealed the hexagonal phase is preferable to cubic phase for oxygen evolution reaction of CoO nanosheets. The ultrafine CoO nanosheets with high-ratio hexagonal phases showed a particularly high mass activity of 5597Ag−1 at 1.615 V, 22.8 times higher than that of the noble metal Ru cluster electrocatalyst. Our study indicates an effective way to synthesize nanosheet catalysts with high mass activity.

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