Molecules (Jun 2024)

Effect of Rh Doping on Optical Absorption and Oxygen Evolution Reaction Activity on BaTiO<sub>3</sub> (001) Surfaces

  • Talgat M. Inerbaev,
  • Aisulu U. Abuova,
  • Zhadyra Ye. Zakiyeva,
  • Fatima U. Abuova,
  • Yuri A. Mastrikov,
  • Maksim Sokolov,
  • Denis Gryaznov,
  • Eugene A. Kotomin

DOI
https://doi.org/10.3390/molecules29112707
Journal volume & issue
Vol. 29, no. 11
p. 2707

Abstract

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In the present work, we investigate the potential of modified barium titanate (BaTiO3), an inexpensive perovskite oxide derived from earth-abundant precursors, for developing efficient water oxidation electrocatalysts using first-principles calculations. Based on our calculations, Rh doping is a way of making BaTiO3 absorb more light and have less overpotential needed for water to oxidize. It has been shown that a TiO2-terminated BaTiO3 (001) surface is more promising from the point of view of its use as a catalyst. Rh doping expands the spectrum of absorbed light to the entire visible range. The aqueous environment significantly affects the ability of Rh-doped BaTiO3 to absorb solar radiation. After Ti→Rh replacement, the doping ion can take over part of the electron density from neighboring oxygen ions. As a result, during the water oxidation reaction, rhodium ions can be in an intermediate oxidation state between 3+ and 4+. This affects the adsorption energy of reaction intermediates on the catalyst’s surface, reducing the overpotential value.

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