Enhancement of thermoelectric properties in Sr0.6La0.4Nb2O6-δ-based ceramics by addition of graphite

IF 3.4 3区 化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR
Kaiwu Fu , Dandan Ma , Nan Zhang , Jiacheng Cao , Xiaonan Chen , Min Zhu , Peiqing La
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Abstract

Oxide thermoelectric materials have a wide range of applications due to their excellent stability, low cost, and non-toxic properties. However, their low thermoelectric conversion efficiency limits their practical use. Therefore, improving the performance of oxide thermoelectric materials has become the focus of current research. Interface engineering is an important approach to enhance thermoelectric properties by optimizing electrical transport properties through multiphase composite regulation of phase interface structure. A series of Sr0.6La0.4Nb2O6-δ/x wt% graphite (x = 0, 0.6, 1.0, 1.5, 2.0) composite ceramics thermoelectric materials were prepared, and the mechanism for improving their thermoelectric properties was explored. Graphite serves as an electron momentum amplifier within the Sr0.6Ba0.4Nb2O6-δ matrix, thereby augmenting both conductivity and power factor values significantly. Notably, the incorporation of 1.5 wt% graphite led to a remarkable enhancement in the thermoelectric power factor at 1073 K, reaching an impressive value of 254.84 μW/K2m - representing a notable increase of approximately 51 % compared to the unmodified sample - primarily attributed to the elevated electrical conductivity.

Abstract Image

Abstract Image

通过添加石墨增强 Sr0.6La0.4Nb2O6-δ 基陶瓷的热电特性
氧化物热电材料具有出色的稳定性、低成本和无毒性,因此应用广泛。然而,其较低的热电转换效率限制了其实际应用。因此,提高氧化物热电材料的性能已成为当前研究的重点。界面工程是通过多相复合调节相界面结构来优化电传输特性,从而提高热电性能的一种重要方法。本文制备了一系列Sr0.6La0.4Nb2O6-δ/x wt%石墨(x = 0, 0.6, 1.0, 1.5, 2.0)复合陶瓷热电材料,并探讨了其热电性能的改善机理。石墨在 Sr0.6Ba0.4Nb2O6-δ 基体中起到了电子动量放大器的作用,从而显著提高了导电率和功率因数值。值得注意的是,掺入 1.5 wt% 的石墨后,1073 K 时的热电功率因数显著提高,达到了令人印象深刻的 254.84 μW/K2m 值,与未改性样品相比显著提高了约 51%,这主要归功于电导率的提高。
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来源期刊
Solid State Sciences
Solid State Sciences 化学-无机化学与核化学
CiteScore
6.60
自引率
2.90%
发文量
214
审稿时长
27 days
期刊介绍: Solid State Sciences is the journal for researchers from the broad solid state chemistry and physics community. It publishes key articles on all aspects of solid state synthesis, structure-property relationships, theory and functionalities, in relation with experiments. Key topics for stand-alone papers and special issues: -Novel ways of synthesis, inorganic functional materials, including porous and glassy materials, hybrid organic-inorganic compounds and nanomaterials -Physical properties, emphasizing but not limited to the electrical, magnetical and optical features -Materials related to information technology and energy and environmental sciences. The journal publishes feature articles from experts in the field upon invitation. Solid State Sciences - your gateway to energy-related materials.
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