Research output: Contribution to journal › Article › peer-review
Research output: Contribution to journal › Article › peer-review
}
TY - JOUR
T1 - Impact of oxygen vacancies on thermal and electronic transport of donor-doped CaMnO3-
AU - Merkulov, O.
AU - Shamsutov, Ivan V.
AU - Ryzhkov, M.
AU - Politov, B.
AU - Baklanova, I.
AU - Chulkov, E.
AU - Zhukov, V.
N1 - The work was carried out in accordance with the state assignment for the Institute of Solid State Chemistry of the Ural Branch of the Russian Academy of Sciences, theme No. AAAA-A19-119031890026-6. E.V.C. acknowledges support from Saint Petersburg State University (Grant No. ID 94031444 ). The computer facility with the URAN cluster of the Institute of Mathematics and Mechanics in the Urals Branch of the Russian Academy of Sciences are also acknowledged.
PY - 2023/10
Y1 - 2023/10
N2 - Crystal structure and thermoelectric characteristics of the donor-doped CaMnO3–δ are significantly affected by doping elements and oxygen exchange with ambient air occurring at temperatures above 700 K. To investigate the role of dopants and oxygen nonstoichiometry in thermoelectric phenomena, polycrystalline Ca0.95Bi0.025Y0.025MnO3–δ was synthesized and the obtained temperature dependences of thermal and electronic parameters were studied by DFT calculation method. The electrical conductivity has shown to possess a polaronic character up to ∼700 K with low activation energy. An increase in temperature leads to formation of oxygen vacancies resulting in the appearance of vacancy states inside the band gap and a decrease in its width. The consequence of this is the observed gradual transition to the semiconductor behavior of electrical conductivity explicitly manifested above ∼1000 K. The obtained experimental figure of merit is shown to be almost an order of magnitude less than the corresponding theoretical one for bulk media, the main part of the deviation is related to the electrical conductivity of the ceramic specimen having a polycrystalline nature. We conclude that the thermoelectric properties of the donor-doped manganese oxide can be significantly improved employing bulk monocrystalline media.
AB - Crystal structure and thermoelectric characteristics of the donor-doped CaMnO3–δ are significantly affected by doping elements and oxygen exchange with ambient air occurring at temperatures above 700 K. To investigate the role of dopants and oxygen nonstoichiometry in thermoelectric phenomena, polycrystalline Ca0.95Bi0.025Y0.025MnO3–δ was synthesized and the obtained temperature dependences of thermal and electronic parameters were studied by DFT calculation method. The electrical conductivity has shown to possess a polaronic character up to ∼700 K with low activation energy. An increase in temperature leads to formation of oxygen vacancies resulting in the appearance of vacancy states inside the band gap and a decrease in its width. The consequence of this is the observed gradual transition to the semiconductor behavior of electrical conductivity explicitly manifested above ∼1000 K. The obtained experimental figure of merit is shown to be almost an order of magnitude less than the corresponding theoretical one for bulk media, the main part of the deviation is related to the electrical conductivity of the ceramic specimen having a polycrystalline nature. We conclude that the thermoelectric properties of the donor-doped manganese oxide can be significantly improved employing bulk monocrystalline media.
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U2 - 10.1016/j.jssc.2023.124231
DO - 10.1016/j.jssc.2023.124231
M3 - Article
VL - 326
SP - 124231
JO - Journal of Solid State Chemistry
JF - Journal of Solid State Chemistry
SN - 0022-4596
ER -
ID: 43270215