Synthesis, Crystal Structure, and Electronic Properties of the Tetragonal (REIREII)3SbO3 Phases (REI = La, Ce; REII = Dy, Ho)

In our efforts to tune the charge transport properties of the recently discovered RE3SbO3 phases (RE is a rare earth), we have prepared mixed (REIREII)3SbO3 phases (REI = La, Ce; REII = Dy, Ho) via high-temperature reactions at 1550 °C or greater. In contrast to monoclinic RE3SbO3, the new phases ad...

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Bibliographic Details
Published in:Inorganic chemistry 2013-01, Vol.52 (2), p.1025-1031
Main Authors: Forbes, Scott, Wang, Peng, Yao, Jinlei, Kolodiazhnyi, Taras, Mozharivskyj, Yurij
Format: Article
Language:eng ; jpn
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Summary:In our efforts to tune the charge transport properties of the recently discovered RE3SbO3 phases (RE is a rare earth), we have prepared mixed (REIREII)3SbO3 phases (REI = La, Ce; REII = Dy, Ho) via high-temperature reactions at 1550 °C or greater. In contrast to monoclinic RE3SbO3, the new phases adopt the P42/mnm symmetry but have a structural framework similar to that of RE3SbO3. The formation of the tetragonal (REIREII)3SbO3 phases is driven by the ordering of the large and small RE atoms on different atomic sites. The La1.5Dy1.5SbO3, La1.5Ho1.5SbO3, and Ce1.5Ho1.5SbO3 samples were subjected to elemental microprobe analysis to verify their compositions and to electrical resistivity measurements to evaluate their thermoelectric potential. The electrical resistivity data indicate the presence of a band gap, which is supported by electronic structure calculations.
ISSN:0020-1669
1520-510X
DOI:10.1021/ic302292w