Interplay between Fe(II) and Fe(III) and Its Impact on Thermoelectric Properties of Iron-Substituted Colusites Cu26−xFexV2Sn6S32

Compounds Pub Date : 2023-05-15 DOI:10.3390/compounds3020027
Alexey O. Polevik, A. Sobolev, I. Glazkova, I. Presniakov, V. Verchenko, J. Link, Raivo Stern, A. Shevelkov
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Abstract

Following the trend of finding better thermoelectric materials among synthetic analogs of copper–chalcogenide minerals, we have synthesized iron-bearing colusites of a general formula Cu26−xFexV2Sn6S32. They crystallize in the cubic space group P-43n with the unit cell parameter increasing linearly with the iron content. At a low iron concentration, the crystal structure features disorder manifested by an anti-site effect and a shift of a part of the tin atoms from their ideal positions, which is absent for higher iron contents. The magnetization and 57Fe/119Sn Mössbauer studies showed that, for x = 1, iron is present as Fe3+, whereas for x > 1, Fe2+ and Fe3+ coexist. Additionally, weak antiferromagnetic interactions between iron atoms and fast on the 57Fe Mössbauer time scale (107–109 s−1) electron transfer between adjacent Fe2+ and Fe3+ centers were revealed. Thermoelectric studies showed that iron-bearing colusites are p-type semiconductors with low thermal conductivity stemming from their complex crystal structure and structural disorder. The highest ZT of 0.78 at 700 K was found for the x = 1 iron content, where iron is present as Fe3+ only.
Fe(II)和Fe(III)相互作用及其对铁取代共渗体Cu26−xFexV2Sn6S32热电性能的影响
遵循在铜硫族矿物的合成类似物中寻找更好的热电材料的趋势,我们合成了通式为Cu26−xFexV2Sn6S32的含铁共聚物。它们在立方空间群P-43n中结晶,晶胞参数随铁含量线性增加。在低铁浓度下,晶体结构紊乱,表现为反位效应和部分锡原子从理想位置偏移,而高铁含量下则不存在这种现象。磁化和57Fe/119Sn Mössbauer研究表明,当x = 1时,铁以Fe3+的形式存在,而当x > 1时,铁以Fe2+和Fe3+共存。此外,还发现了铁原子之间的弱反铁磁相互作用,并在57Fe Mössbauer时间尺度上(107-109 s−1)发现了相邻Fe2+和Fe3+中心之间的电子转移。热电研究表明,含铁共聚物晶体结构复杂,结构无序,为p型半导体,导热系数低。当铁含量为x = 1时,在700 K时ZT最高,为0.78,其中铁仅以Fe3+的形式存在。
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CiteScore
2.30
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