Synthesis and Direct Sintering of Nanosized (MIV ,MIII )O2-x Hydrated Oxides as Electrolyte Ceramics

Nicolas Clavier; Yanis Cherkaski; Julien Martinez; Sophie Costis; Théo Cordara; Fabienne Audubert; Laurent Brissonneau; Nicolas Dacheux

doi:10.1002/cphc.201700647

Synthesis and Direct Sintering of Nanosized (M^IV ,M^III )O_2-x Hydrated Oxides as Electrolyte Ceramics

Chemphyschem. 2017 Oct 6;18(19):2666-2674. doi: 10.1002/cphc.201700647. Epub 2017 Aug 16.

Authors

Nicolas Clavier¹, Yanis Cherkaski^{1

2}, Julien Martinez^{1

3}, Sophie Costis¹, Théo Cordara¹, Fabienne Audubert⁴, Laurent Brissonneau², Nicolas Dacheux¹

Affiliations

¹ ICSM, Institut de Chimie Séparative de Marcoule, UMR 5257, CEA, CNRS, ENSCM, Univ. Montpellier, Site de Marcoule-Bât. 426, BP 17171, 30207, Bagnols/Cèze, France.
² CEA/DEN/DTN/SMTA/LIPC, Site de Cadarache, 13108, St-Paul lez Durance, France.
³ CEA/DEN/DMRC/SECA/LFC, Site de Marcoule-Bât. 399, BP 17171, 30207, Bagnols/Cèze, France.
⁴ CEA/DEN/DEC/SA3C/LAMIR, Site de Cadarache, 13108, St-Paul lez Durance, France.

PMID: 28722787
DOI: 10.1002/cphc.201700647

Abstract

Highly reactive and nanosized Th_1-x Y_x O_2-x/2 or Ce_0.8 Ln_0.2 O_1.9 mixed oxides were prepared through the initial precipitation of hydroxide precursors which were further dried under vacuum. Whatever the chemical system investigated, the characterization of the powdered samples evidenced a rapid aging process leading to hydrated oxides. The thermal behavior of these samples was further investigated and first showed a two-step dehydration process, with the successive departure of adsorbed and constitutive water, both yielding a drastic drop of the powders' reactivity (i.e. decrease of the specific surface area). Sintering experiments were then undertaken by starting directly from raw powders and revealed very rapid densification kinetics. Highly densified pellets (above 95 %TD) with a fine grain microstructure were obtained after only 1 hour of heat treatment at 1600 °C. This easy and versatile process of precipitation, that can be followed by direct densification of the powders, then appears as a promising option for the elaboration of homogenous ceramic electrolytes.

Keywords: Ceramic electrolyte; Cerium; Oxide; Sintering; Thorium.