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Article Dans Une Revue The Journal of Chemical Physics Année : 2024

Investigating cerium redox changes between aluminosilicate glass and melt: A multispectroscopic approach

Étude des changements de rédox du cérium entre le verreet le liquide aluminosilicaté : Une approche multispectroscopique

Résumé

Redox control of glasses is paramount both to their fusion process and to obtaining the desired properties of high technological glasses. However, the link between melting parameters, such as temperature, furnace atmosphere, or quenching rate, and the redox state of the final products is poorly understood. In this work, in situ x-ray absorption near-edge structure (XANES) data at Ce L3-edge data were acquired at high temperatures on cerium-containing sodium aluminosilicate glasses, allowing the determination of thermodynamic constants necessary to predict the cerium redox state over a wide temperature range (900–1500 °C). The results obtained were compared to the Raman spectra of samples quenched at different temperatures. Our findings demonstrate that the quench performed was fast enough to block the cerium oxidation state, meaning the redox measured at room temperature is representative of a high temperature state. This was further verified by room temperature Raman spectroscopy, where a relationship was found between the spectra and melting conditions. Wet chemical analysis, XANES at Ce L3-edge, Raman spectroscopy, and optical absorption spectroscopy were successfully used to determine the redox state of cerium in aluminosilicates.
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Dates et versions

hal-04560559 , version 1 (26-04-2024)

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Adrien Donatini, Peggy Georges, Tiphaine Fevre, Laurent Cormier, Daniel Neuville. Investigating cerium redox changes between aluminosilicate glass and melt: A multispectroscopic approach. The Journal of Chemical Physics, 2024, 160 (12), ⟨10.1063/5.0203388⟩. ⟨hal-04560559⟩
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