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Heat capacity of nanocrystalline Yb2O3

Abstract: A study of the structural, Raman scattering and thermodynamic properties of a nanocrystalline ceramic rare earth oxide Yb2O3 and its bulk counterpart is reported. The nanosized sample was obtained by mechanical milling of bulk Yb2O3 (99.998%, high purity powder). The Rietveld analysis of the X-ray diffraction data indicates the presence of nanoparticles with a mean grain size of 12 ± 1 nm after 75 h of milling time. The crystallographic structure within nanoparticles is cubic Ia-3 and the lattice parameter a = 10.455 ± 0.002 Å. The nanocrystalline structure is confirmed by the evaluation of transmission electron microscopy images, showing a size distribution with a mean size DTEM = 8 ± 2 nm. Measurements of the specific heat (2 K?300 K) reveal an excess contribution respect to the unmilled (bulk) compound in the high temperature region above 70 K. At lower temperatures the results are consistent with a drastic change of the antiferromagnetic contribution (ordered below TN = 2.2 K) as a result of the magnetic disorder arising from the size reduction process. The specific heat above TN for the bulk and nanocrystalline samples are explained by the interplay among the phonon contribution, crystalline field and the presence of anharmonic effects. In the nanocrystalline state, broadening and shifts of the contribution of phonon modes to the Raman spectra, and a further reinforcement of the anharmonic contribution are found.

 Authorship: Rojas D.P., Espeso J.I., Fernández L.R., Barquín L.F.,

 Fuente: Ceramics International, 2022, (48)1, 879-886

 Publisher: Elsevier

 Publication date: 01/01/2022

 No. of pages: 8

 Publication type: Article

 DOI: 10.1016/j.ceramint.2021.09.170

 ISSN: 0272-8842,1873-3956

 Spanish project: MAT2017-83631-C3-R

 Publication Url: https://doi.org/10.1016/j.ceramint.2021.09.170

Authorship

LIDIA RODRIGUEZ FERNANDEZ