Dopant solubility in ceria: alloy thermodynamics combined with the DFT+U calculations

David Fuks; Denis Gryaznov; Eugene Kotomin; Andrew Chesnokov; Joachim Maier

doi:10.1016/j.ssi.2018.08.019

Dopant solubility in ceria: alloy thermodynamics combined with the DFT+U calculations

David Fuks, Denis Gryaznov, Eugene Kotomin, Andrew Chesnokov, Joachim Maier

Department of Materials Engineering

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

1 Scopus citations

Abstract

Tb-doped CeO₂ (ceria) is a promising mixed conductor for oxygen permeation membranes and reversible oxygen sorbents. To predict solubility of Tb ions in ceria for a wide range of concentrations, density functional theory (DFT+U) calculations with two different values of Hubbard U-parameter on Tb and Ce ions were combined with alloy thermodynamics and the Concentration Wave approach. It is shown that, to predict properties of disordered solid solutions at finite temperatures, the energy parameters in the mixing energies can be extracted from the DFT+U calculations performed at T = 0 K for two ordered configurations of the dopant in the supercells. The unlimited solubility of Tb⁴⁺ in CeO₂ in the quasi-binary cross-section CeO₂-TbO₂ is predicted in the temperature range where both stoichiometric TbO₂ and CeO₂ reveal fluorite structures (above 700 °C).

Original language	English
Pages (from-to)	258-264
Number of pages	7
Journal	Solid State Ionics
Volume	325
DOIs	https://doi.org/10.1016/j.ssi.2018.08.019
State	Published - 1 Nov 2018

Keywords

Ab initio
CeO
Solid solution
Solubility
Tb
Thermodynamics

ASJC Scopus subject areas

General Chemistry
General Materials Science
Condensed Matter Physics

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10.1016/j.ssi.2018.08.019

Cite this

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title = "Dopant solubility in ceria: alloy thermodynamics combined with the DFT+U calculations",

abstract = "Tb-doped CeO2 (ceria) is a promising mixed conductor for oxygen permeation membranes and reversible oxygen sorbents. To predict solubility of Tb ions in ceria for a wide range of concentrations, density functional theory (DFT+U) calculations with two different values of Hubbard U-parameter on Tb and Ce ions were combined with alloy thermodynamics and the Concentration Wave approach. It is shown that, to predict properties of disordered solid solutions at finite temperatures, the energy parameters in the mixing energies can be extracted from the DFT+U calculations performed at T = 0 K for two ordered configurations of the dopant in the supercells. The unlimited solubility of Tb4+ in CeO2 in the quasi-binary cross-section CeO2-TbO2 is predicted in the temperature range where both stoichiometric TbO2 and CeO2 reveal fluorite structures (above 700 °C).",

keywords = "Ab initio, CeO, Solid solution, Solubility, Tb, Thermodynamics",

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doi = "10.1016/j.ssi.2018.08.019",

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T1 - Dopant solubility in ceria

T2 - alloy thermodynamics combined with the DFT+U calculations

AU - Fuks, David

AU - Gryaznov, Denis

AU - Kotomin, Eugene

AU - Chesnokov, Andrew

AU - Maier, Joachim

PY - 2018/11/1

Y1 - 2018/11/1

N2 - Tb-doped CeO2 (ceria) is a promising mixed conductor for oxygen permeation membranes and reversible oxygen sorbents. To predict solubility of Tb ions in ceria for a wide range of concentrations, density functional theory (DFT+U) calculations with two different values of Hubbard U-parameter on Tb and Ce ions were combined with alloy thermodynamics and the Concentration Wave approach. It is shown that, to predict properties of disordered solid solutions at finite temperatures, the energy parameters in the mixing energies can be extracted from the DFT+U calculations performed at T = 0 K for two ordered configurations of the dopant in the supercells. The unlimited solubility of Tb4+ in CeO2 in the quasi-binary cross-section CeO2-TbO2 is predicted in the temperature range where both stoichiometric TbO2 and CeO2 reveal fluorite structures (above 700 °C).

AB - Tb-doped CeO2 (ceria) is a promising mixed conductor for oxygen permeation membranes and reversible oxygen sorbents. To predict solubility of Tb ions in ceria for a wide range of concentrations, density functional theory (DFT+U) calculations with two different values of Hubbard U-parameter on Tb and Ce ions were combined with alloy thermodynamics and the Concentration Wave approach. It is shown that, to predict properties of disordered solid solutions at finite temperatures, the energy parameters in the mixing energies can be extracted from the DFT+U calculations performed at T = 0 K for two ordered configurations of the dopant in the supercells. The unlimited solubility of Tb4+ in CeO2 in the quasi-binary cross-section CeO2-TbO2 is predicted in the temperature range where both stoichiometric TbO2 and CeO2 reveal fluorite structures (above 700 °C).

KW - Ab initio

KW - CeO

KW - Solid solution

KW - Solubility

KW - Tb

KW - Thermodynamics

UR - https://www.scopus.com/pages/publications/85054295758

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DO - 10.1016/j.ssi.2018.08.019

M3 - Article

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SN - 0167-2738

VL - 325

SP - 258

EP - 264

JO - Solid State Ionics

JF - Solid State Ionics

ER -

Dopant solubility in ceria: alloy thermodynamics combined with the DFT+U calculations

Abstract

Keywords

ASJC Scopus subject areas

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