Enhancement of the thermoelectric performances of In2O3 by the coupled substitution of M2+/Sn4+ for In3+ - Normandie Université Access content directly
Journal Articles Journal of Applied Physics Year : 2008

Enhancement of the thermoelectric performances of In2O3 by the coupled substitution of M2+/Sn4+ for In3+

Abstract

The thermoelectric properties of air-prepared cosubstituted indium oxide based compounds belonging to the series In2−2xMxSnxO3 (M=Zn, Cu, or Ni) have been studied. X-ray diffraction studies show that the solubility limit xmax increases from xmax=0.35 for M=Cu to xmax=0.45 for M=Zn and xmax=0.55 for M=Ni. The lattice parameters, following the Vegard law with increasing substitution rates are in good agreement with the divalent oxidation state for the M cations. Compared to the undoped In2O3 prepared in air, the electrical resistivity of the cosubstituted phases (M=Zn,Cu) is strongly decreased and exhibits a metallic behavior. A more complex behavior is observed for the Ni/Sn cosubstituted samples whose resistivity first decreases and then increases with x. The lowest resistivity values do not exceed 0.5 mΩ cm at room temperature. Despite the lower values of the thermopower in cosubstituted samples, the thermoelectric power factor is significantly higher than that of the undoped In2O3, leading to values exceeding 5.10−4 W m−1 K−2. Furthermore, as the lattice thermal conductivity is strongly reduced by the cosubstitution due to mass fluctuation scattering of the phonons, promising thermoelectric figure of merit ZT is observed, close to 0.3 at 1273 K in In1.6Zn0.2Sn0.2O3. Thus, this study emphasizes the important role of cosubstitution to improve the thermoelectric properties of these n -type oxides.
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Dates and versions

hal-02264239 , version 1 (06-08-2019)

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David Bérardan, Emmanuel Guilmeau, Antoine Maignan, Bernard Raveau. Enhancement of the thermoelectric performances of In2O3 by the coupled substitution of M2+/Sn4+ for In3+. Journal of Applied Physics, 2008, 104 (6), pp.064918. ⟨10.1063/1.2986148⟩. ⟨hal-02264239⟩
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