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arxiv: 2504.15227 · v1 · pith:P4DQ64JV · submitted 2025-04-21 · cond-mat.mtrl-sci

The preparation and properties of polycrystalline Bi₂O₂Se -- pitfalls and difficulties with reproducibility and charge transport limiting parameters

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classification cond-mat.mtrl-sci
keywords materialpolycrystallinepropertiesreproducibilitycyclingdopingimprovesmaterials
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Thermoelectric materials allow the direct conversion of waste heat into electricity, and novel materials are being investigated for this purpose. Recently, doped Bi$_2$O$_2$Se has shown high application potential. In this study, we discuss causes for large variation in reported transport properties of pure Bi$_2$O$_2$Se and present a preparation method that improves the reproducibility of undoped polycrystalline samples and improves their stability under thermal cycling. Key steps of this method include calcination of the Bi$_2$O$_3$ precursor, purification of the synthesized material in a temperature gradient, use of a coarse particle fraction and compaction of the powders in a Si3N4 die instead of a graphite die. The resulting polycrystalline material exhibits improved reproducibility and enhanced resistance to thermal cycling. It has room temperature electrical conductivity {\sigma}RT ~ 500 S.m-1 and Seebeck coefficient S ~ -300 $\mu$V.K$^{-1}$. These properties make it suitable as a reference material for future doping studies. The presented synthesis approach may provide a more reliable platform for investigating the intrinsic behavior and doping response of Bi$_2$O$_2$Se in thermoelectric applications.

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