Effect of Rh Doping on Optical Absorption and Oxygen Evolution Reaction Activity on BaTiO3 (001) Surfaces

Deniss Grjaznovs; Jevgenijs Kotomins; Jurijs Mastrikovs; Maksims Sokolovs; F.U. Abuova; A.U. Abuova; T.M. Inerbaev; D. Gryaznov; T.M. Inerbaev; Zh.Ye. Zakiyeva; Z.Y. Zakiyeva; Yu.A. Mastrikov; F.U. Abuova; A.U. Abuova; M. Sokolov; E.A. Kotomin

doi:10.3390/molecules29112707

Effect of Rh Doping on Optical Absorption and Oxygen Evolution Reaction Activity on BaTiO3 (001) Surfaces

Deniss Grjaznovs
, Jevgenijs Kotomins
, Jurijs Mastrikovs
, Maksims Sokolovs
, F.U. Abuova
, A.U. Abuova
, T.M. Inerbaev
, D. Gryaznov
, T.M. Inerbaev
, Zh.Ye. Zakiyeva
, Z.Y. Zakiyeva
, Yu.A. Mastrikov
, F.U. Abuova
, A.U. Abuova
, M. Sokolov
, E.A. Kotomin

Institute of Solid State Physics, University of Latvia

L.N. Gumilyov Eurasian National University
Vernadsky Institute of Geochemistry and Analytical Chemistry of Russian Academу of Sciences

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

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.

Original language	English
Article number	2707
Journal	Molecules
Volume	29
Issue number	11
DOIs	https://doi.org/10.3390/molecules29112707
Publication status	Published - Jun 2024

Keywords

electrocatalysis
electrode materials
energy storage and conversion
photocatalysis
water splitting

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10.3390/molecules29112707

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Grjaznovs, D., Kotomins, J., Mastrikovs, J., Sokolovs, M., Abuova, F. U., Abuova, A. U., Inerbaev, T. M., Gryaznov, D., Inerbaev, T. M., Zakiyeva, Z. Y., Zakiyeva, Z. Y., Mastrikov, Y. A., Abuova, F. U., Abuova, A. U., Sokolov, M., & Kotomin, E. A. (2024). Effect of Rh Doping on Optical Absorption and Oxygen Evolution Reaction Activity on BaTiO3 (001) Surfaces. Molecules, 29(11), Article 2707. https://doi.org/10.3390/molecules29112707

@article{3ad2b69d752941b88d7539fad1a22d47,

title = "Effect of Rh Doping on Optical Absorption and Oxygen Evolution Reaction Activity on BaTiO3 (001) Surfaces",

abstract = "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{\textquoteright}s surface, reducing the overpotential value.",

keywords = "electrocatalysis, electrode materials, energy storage and conversion, photocatalysis, water splitting",

author = "Deniss Grjaznovs and Jevgenijs Kotomins and Jurijs Mastrikovs and Maksims Sokolovs and F.U. Abuova and A.U. Abuova and T.M. Inerbaev and D. Gryaznov and T.M. Inerbaev and Zh.Ye. Zakiyeva and Z.Y. Zakiyeva and Yu.A. Mastrikov and F.U. Abuova and A.U. Abuova and M. Sokolov and E.A. Kotomin",

note = "Publisher Copyright: {\textcopyright} 2024 by the authors.",

year = "2024",

month = jun,

doi = "10.3390/molecules29112707",

language = "English",

volume = "29",

journal = "Molecules",

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Grjaznovs, D , Kotomins, J , Mastrikovs, J , Sokolovs, M, Abuova, FU, Abuova, AU, Inerbaev, TM, Gryaznov, D, Inerbaev, TM, Zakiyeva, ZY, Zakiyeva, ZY, Mastrikov, YA, Abuova, FU, Abuova, AU, Sokolov, M & Kotomin, EA 2024, 'Effect of Rh Doping on Optical Absorption and Oxygen Evolution Reaction Activity on BaTiO3 (001) Surfaces', Molecules, vol. 29, no. 11, 2707. https://doi.org/10.3390/molecules29112707

TY - JOUR

T1 - Effect of Rh Doping on Optical Absorption and Oxygen Evolution Reaction Activity on BaTiO3 (001) Surfaces

AU - Grjaznovs, Deniss

AU - Kotomins, Jevgenijs

AU - Mastrikovs, Jurijs

AU - Sokolovs, Maksims

AU - Abuova, F.U.

AU - Abuova, A.U.

AU - Inerbaev, T.M.

AU - Gryaznov, D.

AU - Inerbaev, T.M.

AU - Zakiyeva, Zh.Ye.

AU - Zakiyeva, Z.Y.

AU - Mastrikov, Yu.A.

AU - Abuova, F.U.

AU - Abuova, A.U.

AU - Sokolov, M.

AU - Kotomin, E.A.

PY - 2024/6

Y1 - 2024/6

N2 - 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.

AB - 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.

KW - electrocatalysis

KW - electrode materials

KW - energy storage and conversion

KW - photocatalysis

KW - water splitting

UR - https://www.scopus.com/pages/publications/85195783245

U2 - 10.3390/molecules29112707

DO - 10.3390/molecules29112707

M3 - Article

SN - 1420-3049

VL - 29

JO - Molecules

JF - Molecules

IS - 11

M1 - 2707

ER -

Effect of Rh Doping on Optical Absorption and Oxygen Evolution Reaction Activity on BaTiO3 (001) Surfaces

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