Phase Transformations in the CeO2–Sm2O3 System: A Multiscale Powder Diffraction Investigation

Coduri, Mauro; Masala, Paolo; Allieta, Mattia; Peral, Inma; Brunelli, Michela; Biffi, Carlo Alberto; Scavini, Marco

doi:10.1021/acs.inorgchem.7b02896

Cited by 34 publications

(53 citation statements)

References 63 publications

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“…The two-phase model significantly improves the fit, especially in the region featuring M-M distances. Similar results were already observed in ceria doped with Y [23,35], Sm [25], Gd [24,39], Bi [40], Zr [41], Pr, Tb [16], and La [42]. This is also consistent with recent absorption spectroscopy study, where a bimodal distribution of bond lengths was observed in Y-and Sm-doped ceria compounds [43].…”

Section: Local Structure-x-raysupporting

confidence: 91%

“…The (413) reflection is already observed for Yb375, even though with small intensity and large broadening, about four times broader than structure peaks. This phenomenon, consistent with the existence of anti-phase boundaries due to the nucleation and growth of C-type nanodomains starting on different sites, is consistent with the hierarchical structures already observed for Y, Gd, and Sm and described as C* [23][24][25]. Lastly, x(M2) is very close to 0 (−0.003), indicating that only a slight C-type distortion occurs.…”

Section: Long-range Structuresupporting

confidence: 89%

“…As to lower dopant concentrations, the small magnitude of the peak at 4.1 Å, which is comparable to the nearby ripple, hinders the correct estimation of the C-type fraction. However, in view of the progressive evolution of msd and according to previous investigations on other dopants [23,25,39], we believe that C-type ordering occurs already for smaller concentrations.…”

Section: Local Structure-x-raysupporting

confidence: 72%

“…Structural evolution linked with heavy doping is an important factor to understand and to estimate the way defects interact at lower dopant concentration. Indeed, it was proved recently by PDF that for Y [23], Gd [22,24], and Sm [25], the fluorite to C-type transformation occurs via nucleation and growth of distorted C-type nanodomains that merge and percolate at a critical dopant concentration. This makes heavily doped ceria structure a hybrid between those of fluorite and C-type [5,26].…”

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confidence: 99%

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Local and Average Structure of Yb-Doped Ceria through Synchrotron and Neutron Pair Distribution Function

et al. 2019

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As transport properties of doped ceria electrolytes depend significantly on the nature of the dopant and the defectivity, the design of new materials and devices requires proper understanding of the defect structure. Among lanthanide dopants, Yb shows some peculiar characteristics that call for a possible different defect structure compared to Gd and Sm conventional dopants, which could be linked to its poorer performance. For this purpose, we combine synchrotron and neutron powder diffraction exploiting the Rietveld and Pair distribution Function. By increasing its concentration, Yb produces qualitatively the same structural distortions as other dopants, leading to a domain structure involving the progressive nucleation and growth of nanodomains with a Yb2O3-like (C-type) structure hosted in a fluorite CeO2 matrix. However, when it comes to growing the C-type nanodomains into a long-range phase, the transformation is less pronounced. At the same time, a stronger structural distortion occurs at the local scale, which is consistent with the segregation of a large amount of oxygen vacancies. The strong trapping of VOs by Yb3+ explains the poor performance of Yb-doped ceria with respect to conventional Sm-, Gd-, and Y-doped samples at equal temperature and dopant amount.

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Section: Local Structure-x-raysupporting

confidence: 91%

Section: Long-range Structuresupporting

confidence: 89%

Section: Local Structure-x-raysupporting

confidence: 72%

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confidence: 99%

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Local and Average Structure of Yb-Doped Ceria through Synchrotron and Neutron Pair Distribution Function

et al. 2019

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“…Ionic conductivity is strictly related to structural and microstructural issues, and this is the reason why so many papers in recent years have been devoted to the crystallographic properties of this material, even in the light of the non-negligible effects of extrinsic factors (e.g., thermal treatments) on the stability of the various oxide phases [15,16]. A particular attention has been paid to defect aggregations [3,[17][18][19][20][21], since ionic conductivity in doped ceria occurs through the hopping of oxygen ions towards the vacancies (V .. O ) created for charge compensation when Ce 4+ is partially substituted by RE 3+ . The mechanism works until the fluorite-type cubic structure of CeO 2 (hereafter named F; space group: Fm3m; Ce coordination number: 8) is retained (i.e., until the solid solution of RE 3+ within the CeO 2 matrix is stable).…”

Section: Introductionmentioning

confidence: 99%

In Situ High Pressure Structural Investigation of Sm-Doped Ceria

et al. 2020

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As a result of the lattice mismatch between the oxide itself and the substrate, the high-pressure structural properties of trivalent rare earth (RE)-doped ceria systems help to mimic the compressive/tensile strain in oxide thin films. The high-pressure structural features of Sm-doped ceria were studied by X-ray diffraction experiments performed on Ce1−xSmxO2−x/2 (x = 0.2, 0.3, 0.4, 0.5, 0.6) up to 7 GPa, and the cell volumes were fitted by the third order Vinet equation of state (EoS) at the different pressures obtained from Rietveld refinements. A linear decrease of the ln B 0 vs. ln ( 2 V a t ) trend occurred as expected, but the regression line was much steeper than predicted for oxides, most probably due to the effect of oxygen vacancies arising from charge compensation, which limits the increase of the mean atomic volume ( V a t ) vs. the Sm content. The presence of RE2O3-based cubic microdomains within the sample stiffens the whole structure, making it less compressible with increases in applied pressure. Results are discussed in comparison with ones previously obtained from Lu-doped ceria.

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A simple chemical precipitation of ceria based (Sm doped-CGO) nanocomposite: structural and electrolytic behaviour for LT-SOFCs

et al. 2020

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Rare-earth doped metal oxide nanocomposites were become very unique and tend to show abundant performance in all types of fields such as electrochemical, photocatalytic, and biological. Gadolinium and Samarium co-doped ceria i.e., Ce 1−x Gd 1−y O 2−δ -Ce 1−x Sm −y O 2−δ [x = 0.2, y = 0.8] nanocomposite was synthesized by co-precipitation method for various applications. The formation of fluorite cubic crystal structure was observed and functional group analysis was revealed by XRD and FTIR correspondingly. SEM with EDAX was revealed the morphological and chemical composition analysis of the prepared nanocomposite. Impedance studies were completed at particular conditions and proved as a suitable electrolyte for low temperature solid oxide fuel cell (LT-SOFC) applications.

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Phase Transformations in the CeO₂–Sm₂O₃ System: A Multiscale Powder Diffraction Investigation

Cited by 34 publications

References 63 publications

Local and Average Structure of Yb-Doped Ceria through Synchrotron and Neutron Pair Distribution Function

Local and Average Structure of Yb-Doped Ceria through Synchrotron and Neutron Pair Distribution Function

In Situ High Pressure Structural Investigation of Sm-Doped Ceria

A simple chemical precipitation of ceria based (Sm doped-CGO) nanocomposite: structural and electrolytic behaviour for LT-SOFCs

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