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5. How hydrothermal synthesis improves the synthesis of (Zr,Ce)SiO4 solid solutions.

Author

Barral, Thomas, Estevenon, Paul, Chanteau, Yann, Kaczmarek, Thibault, Strzelecki, Andrew C., Menut, Denis, Welcomme, Eleonore, Szenknect, Stephanie, Moisy, Philippe, Guo, Xiaofeng, and Dacheux, Nicolas

Subjects
SOLID solutions, SPACE groups, DOPING agents (Chemistry), RAMAN spectroscopy, BIOCHEMICAL substrates, HYDROTHERMAL synthesis
Abstract

Although ZrSiO4 is the most well-known compound in the zircon-structured family (space group I41/amd), the experimental conditions for preparing pure and well-crystallized phases that are doped with a tetravalent element via hydrothermal synthesis have never been clearly discussed in the literature. With the aim to answer this question, the experimental conditions of the preparation of ZrSiO4 and (Zr,Ce)SiO4 were investigated in order to synthesize well-crystallized and pure phases. A multiparametric study has been carried out using soft hydrothermal conditions with variables including reactant concentration, initial pH of the reactive medium, and duration of the hydrothermal treatment. Pure ZrSiO4 was obtained through hydrothermal treatment for 7 days at 250 °C, within a large acidity range (1.0 ≤ pH ≤ 9.0) and starting from CSi ≈ CZr ≥ 0.2 mol L−1. As hydrothermally prepared zircon structured phases can be both hydrated and hydroxylated, its annealed form was also studied after heating to 1000 °C. Based on these results, the synthesis of (Zr,Ce)SiO4 solid solutions was also investigated. The optimal hydrothermal conditions to acquire pure and crystallized phases were as follows: 7 days at 250 °C with initial pH = 1 and concentration of the reactants equal to 0.2 mol L−1. This led to Zr1−xCexSiO4 solid solutions with the incorporated Ce content up to 40 mol%. Samples were characterized using multiple methods, including laboratory and synchrotron PXRD, IR and Raman spectroscopies, SEM, and TGA. Moreover, it was found that these phases were thermally stable in air up to at least 1000 °C. [ABSTRACT FROM AUTHOR]

Published
2023
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6. Impact des éléments platinoïdes et du molybdène dans les mécanismes de dissolution du dioxyde d'uranium

Author

Kaczmarek, Thibault, Institut de Chimie Séparative de Marcoule (ICSM - UMR 5257), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM)-Ecole Nationale Supérieure de Chimie de Montpellier (ENSCM), Université de Montpellier (UM), Université de Montpellier, Nicolas Dacheux, Stephanie Szenknect, and STAR, ABES

Subjects
[CHIM.OTHE] Chemical Sciences/Other, Uranium dioxide, Platinoïdes, Platinoide, Dioxyde d'uranium, [CHIM.OTHE]Chemical Sciences/Other, Dissolution
Abstract

Although a spent nuclear fuel is composed of about 96 wt. % of UO2, its composition and microstructure display an extreme complexity due to the presence of more than 30 fission products. Fission products found as metallic precipitates are mainly composed of the noble metals Ru, Rh, Pd, Mo (platinium group metals = PGM's). The first step of the spent nuclear fuel reprocessing is the dissolution in a concentrated nitric acid solution. In this context, this Ph. D. work focuses on the impact of these elements on the kinetics of dissolution of the UO2 matrix. Model samples of UO2 incorporating 3 mol. % of Ru, Rh, Pd or Mo were prepared using a wet chemistry route, then were sintered at high temperature under reducing atmosphere. The speciation, morphology as well as the spatial distribution of the elements in the sintered samples were determined. The pellets exhibited similar microstructure. Then, the synthesized samples were submitted to dissolution tests in order to quantify the impact of the presence of the metallic particles on the dissolution rate of UO2. Dissolution experiments were carried out under conditions representative of the reprocessing of SNF. The dissolution rate of each model compound was determined at macroscopic scale and compared to that of UO2. At microscopic scale, the evolution of the solid/liquid interface was monitored by MEBE. Additionally, specific dissolution experiments were designed to identify the mechanisms involving these elements. The obtained results allows to compare the influence of each element of interest and to improve our understanding of their specific role during the dissolution of UO2 in nitric acid. dissolution in a hydrochloric medium will also be carried out to erase the impact of nitrate ions on the dissolution, Le combustible usé contient de nombreux produits de fission dont les éléments platinoïdes (Ru, Rh et Pd) et le molybdène. Ces produits de fission se retrouvent essentiellement dans le combustible usé sous forme de précipités métalliques. La première étape du retraitement est la dissolution du combustible en milieu acide nitrique concentré. Ce travail de thèse vise à déterminer l’impact de ces éléments, incorporés sous forme de particules métalliques au sein de la matrice UO2, sur la cinétique et les mécanismes de la dissolution. Dans ce cadre, plusieurs systèmes modèles à base de UO2 incorporant chaque élément platinoïde et le molybdène à hauteur de 3 % molaires ont été synthétisés par voie humide. Pour chaque système, des pastilles denses et de microstructure proche de celle du combustible usé ont été préparées par frittage à haute température sous atmosphère réductrice, puis caractérisées. L’étude de la dissolution des composés modèles a été menée dans les conditions de retraitement des combustibles usés afin de quantifier l’effet de la présence des éléments platinoïdes et du molybdène sur la vitesse de dissolution de UO2. Des expériences de dissolution à l’échelle macroscopique ont été réalisées ainsi que le suivi operando de l’évolution de l’interface solide/liquide par MEBE. Des expériences de dissolution des composés modèles ont également été réalisées dans des conditions plus douces et adaptées à la mise en évidence des mécanismes impliquant ces éléments. L’ensemble des résultats obtenus a permis de comparer l’influence des éléments d’intérêt et de mettre en évidence leur différents modes d’action au cours de la dissolution de la matrice UO2 en milieu acide nitrique.

Published
2022

7. Effect of ruthenium metallic particles on the kinetics of dissolution of UO2 in nitric acid

Author

Kaczmarek, Thibault, Szenknect, Stephanie, Claparede, Laurent, Cabie, Martiane, Le Goff, Xavier, Mesbah, Adel, Podor, Renaud, Dacheux, Nicolas, Interfaces de Matériaux en Evolution (LIME), Institut de Chimie Séparative de Marcoule (ICSM - UMR 5257), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM)-Ecole Nationale Supérieure de Chimie de Montpellier (ENSCM), Université de Montpellier (UM)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM)-Ecole Nationale Supérieure de Chimie de Montpellier (ENSCM), Université de Montpellier (UM), Centre Pluridisciplinaire de Microscopie Electronique et de Microanalyse (AMU CP2M), Aix Marseille Université (AMU), and Etude de la Matière en Mode Environnemental (L2ME)

Subjects
[CHIM.INOR]Chemical Sciences/Inorganic chemistry
Abstract

International audience; UO2 pellets containing 3 mol. % of Ru were prepared then characterized. The speciation, the morphology and the spatial distribution of Ru in the sintered samples were determined. These samples were submitted to dissolution tests in nitric and hydrochloric acids, as well as UO2 pellets in the presence and in absence of Ru-metal particles in solution. The evolution of the elemental concentrations in solution was followed, then the residues of dissolution were characterized. The presence of metallic particles of Ru incorporated in the pellet increased significantly the dissolution rate of UO2, both in nitric and hydrochloric media. A mechanism was then proposed to explain their influence on the kinetics of dissolution of UO2 in nitric acid solutions.

Published
2022

8. Impact of ruthenium metallic particles on the dissolution of UO2 in nitric acid.

Author

Kaczmarek, Thibault, Szenknect, Stéphanie, Claparède, Laurent, Cabié, Martiane, Le Goff, Xavier, Mesbah, Adel, Podor, Renaud, and Dacheux, Nicolas

Subjects
NITRIC acid, RUTHENIUM, WET chemistry, NITROUS acid, CATALYTIC activity, RUTHENIUM catalysts, OXIDATION-reduction reaction
Abstract

UO2 pellets incorporating 3 mol.% of Ru was prepared by using a wet chemistry route and then characterised. The speciation, morphology, as well as spatial distribution of Ru in the sintered samples, were determined. The synthesised samples were submitted to dissolution tests in 0.1 M nitric acid at 60 °C and the dissolution of pure UO2 pellets was also studied with and without the presence of Ru metallic particles in the solution. The evolution of the U, Ru, and nitrous acid concentrations in solution was measured and the residues of dissolution were further characterised. The obtained results unambiguously demonstrated the catalytic activity of Ru-metal particles during UO2 dissolution in nitric acid provided that a solid/solid interface existed between UO2 and Ru-metal particles. This positive impact on the dissolution kinetics of UO2 was supported by redox reactions taking place at both nitric acid solution/Ru-metal particles and at Ru-metal particles/UO2 interfaces. [ABSTRACT FROM AUTHOR]

Published
2022
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9. Soft Hydrothermal Synthesis of Hafnon, HfSiO4

Author

Estevenon, Paul, primary, Kaczmarek, Thibault, additional, Rafiuddin, Mohamed Ruwaid, additional, Welcomme, Eleonore, additional, Szenknect, Stephanie, additional, Mesbah, Adel, additional, Moisy, Philippe, additional, Poinssot, Christophe, additional, and Dacheux, Nicolas, additional

Published
2020
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10. Formation of CeSiO4 from cerium(iii) silicate precursors

Author

Estevenon, Paul, primary, Kaczmarek, Thibault, additional, Vadot, Fabien, additional, Dumas, Thomas, additional, Solari, Pier Lorenzo, additional, Welcomme, Eleonore, additional, Szenknect, Stephanie, additional, Mesbah, Adel, additional, Moisy, Philippe, additional, Poinssot, Christophe, additional, and Dacheux, Nicolas, additional

Published
2019
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11. Formation of CeSiO4 from cerium(iii) silicate precursors.

Author

Estevenon, Paul, Kaczmarek, Thibault, Vadot, Fabien, Dumas, Thomas, Solari, Pier Lorenzo, Welcomme, Eleonore, Szenknect, Stephanie, Mesbah, Adel, Moisy, Philippe, Poinssot, Christophe, and Dacheux, Nicolas

Subjects
*CERIUM, *SILICATES, *HYDROTHERMAL synthesis, *THERAPEUTICS
Abstract

Although the preparation of CeSiO4 has been already reported, the formation of pure cerium silicate from aqueous precursors appears as a challenge. An innovative way of synthesis has been identified in this study, allowing the formation of CeSiO4 after hydrothermal treatment starting from Ce(iii) silicate precursors. Among the experimental parameters examined, significant effects were found according to the nature of the precursor and of the reactive media considered, the pH of the reactive media and the temperature of the hydrothermal process. This study allows the determination of optimized conditions for the hydrothermal synthesis of pure CeSiO4 (A-Ce2Si2O7 or Ce4.67(SiO4)3O as starting precursors, nitric medium, pH = 7, 7 days at 150 °C). The in situ low oxidation rate of Ce(iii) into Ce(iv) was a key parameter to consider in order to avoid the presence of CeO2 in the final mixtures. [ABSTRACT FROM AUTHOR]

Published
2019
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12. How hydrothermal synthesis improves the synthesis of (Zr,Ce)SiO 4 solid solutions.

Author

Barral T, Estevenon P, Chanteau Y, Kaczmarek T, Strzelecki AC, Menut D, Welcomme E, Szenknect S, Moisy P, Guo X, and Dacheux N

Abstract

Although ZrSiO 4 is the most well-known compound in the zircon-structured family (space group I 4 1 / amd ), the experimental conditions for preparing pure and well-crystallized phases that are doped with a tetravalent element via hydrothermal synthesis have never been clearly discussed in the literature. With the aim to answer this question, the experimental conditions of the preparation of ZrSiO 4 and (Zr,Ce)SiO 4 were investigated in order to synthesize well-crystallized and pure phases. A multiparametric study has been carried out using soft hydrothermal conditions with variables including reactant concentration, initial pH of the reactive medium, and duration of the hydrothermal treatment. Pure ZrSiO 4 was obtained through hydrothermal treatment for 7 days at 250 °C, within a large acidity range (1.0 ≤ pH ≤ 9.0) and starting from C Si ≈ C Zr ≥ 0.2 mol L -1 . As hydrothermally prepared zircon structured phases can be both hydrated and hydroxylated, its annealed form was also studied after heating to 1000 °C. Based on these results, the synthesis of (Zr,Ce)SiO 4 solid solutions was also investigated. The optimal hydrothermal conditions to acquire pure and crystallized phases were as follows: 7 days at 250 °C with initial pH = 1 and concentration of the reactants equal to 0.2 mol L -1 . This led to Zr 1- x Ce x SiO 4 solid solutions with the incorporated Ce content up to 40 mol%. Samples were characterized using multiple methods, including laboratory and synchrotron PXRD, IR and Raman spectroscopies, SEM, and TGA. Moreover, it was found that these phases were thermally stable in air up to at least 1000 °C.

Published
2023
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