Structural Changes in Ce0.5Zr0.5O2−δ under Temperature-Swing and Isothermal Solar Thermochemical Looping Conditions Determined by in Situ Ce K and Zr K Edge X‑ray Absorption Spectroscopy

Structural changes in an equimolar ceria–zirconia solid solution were determined from room temperature to 1773 K under typical reducing and oxidizing conditions in a reactor for the solar thermochemical dissociation of water or carbon dioxide in a two-step redox cycle. We report the first in situ X-...

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Published in:Journal of physical chemistry. C 2016-07, Vol.120 (26), p.13931-13941
Main Authors: Rothensteiner, Matthäus, Bonk, Alexander, Vogt, Ulrich F, Emerich, Hermann, van Bokhoven, Jeroen A
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creator Rothensteiner, Matthäus
Bonk, Alexander
Vogt, Ulrich F
Emerich, Hermann
van Bokhoven, Jeroen A
description Structural changes in an equimolar ceria–zirconia solid solution were determined from room temperature to 1773 K under typical reducing and oxidizing conditions in a reactor for the solar thermochemical dissociation of water or carbon dioxide in a two-step redox cycle. We report the first in situ X-ray absorption spectroscopy (XAS) measurements at both the Ce K and Zr K edges under the conditions of thermochemical carbon dioxide splitting and a temperature swing of 1773 to 1073 K and isothermal conditions at 1773 K. The shift in the Ce K absorption edge reveals quantitative information about changes in the electronic structure of cerium. The maximum extent of reduction at 1773 K was 53% ± 5%; about 9% ± 5% of the cerium atoms changed valence from 4+ to 3+ and vice versa during isothermal looping in a flow of argon and carbon dioxide, respectively. Zr K edge XANES indicated a transformation of the oxygen coordination of zirconia to a more centrosymmetric cubic geometry upon reduction. During isothermal cycling at 1773 K, there were no visible changes in the zirconium–oxygen coordination geometry.
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title Structural Changes in Ce0.5Zr0.5O2−δ under Temperature-Swing and Isothermal Solar Thermochemical Looping Conditions Determined by in Situ Ce K and Zr K Edge X‑ray Absorption Spectroscopy
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