Enhanced thermoelectric and mechanical properties in hierarchical tubular porous cuprous selenide

Jixing Liu; Meng Li; Shenghui Yang; Shengnan Zhang; Jianqing Feng; Chengshan Li; Pingxiang Zhang; Lian Zhou

doi:10.1016/j.scriptamat.2019.09.009

Enhanced thermoelectric and mechanical properties in hierarchical tubular porous cuprous selenide

Jixing Liu, Meng Li, Shenghui Yang, Shengnan Zhang, Jianqing Feng, Chengshan Li, Pingxiang Zhang, Lian Zhou

科研成果: 期刊稿件 › 文章 › 同行评审

27 引用（Scopus）

摘要

Superionic thermoelectric Cu₂Se bulks are successfully acquired via an identical gas reinforced eutectic transformation (gasar) process based on its melting-congruent nature. The gasar synthesis process introduces tubular pores to Cu₂Se matrix, which have hierarchical size and corrugated surface, and are distributed homogeneously and isotopically. The Cu₂Se bulk with such a unique porous structure shows enhanced thermoelectric figure-of-merit up to ∼2.1 at 873 K owing to the conspicuously reduced thermal conductivity, which can be attributed to the increased phonon scattering. Moreover, the porous Cu₂Se bulk also possesses higher mechanical robustness compared with traditional porous-structured material because of the corrugated surface, which is promising for making thermoelectric modules.

源语言	英语
页（从-至）	104-107
页数	4
期刊	Scripta Materialia
卷	176
DOI	https://doi.org/10.1016/j.scriptamat.2019.09.009
出版状态	已出版 - 2月 2020
已对外发布	是

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title = "Enhanced thermoelectric and mechanical properties in hierarchical tubular porous cuprous selenide",

abstract = "Superionic thermoelectric Cu2Se bulks are successfully acquired via an identical gas reinforced eutectic transformation (gasar) process based on its melting-congruent nature. The gasar synthesis process introduces tubular pores to Cu2Se matrix, which have hierarchical size and corrugated surface, and are distributed homogeneously and isotopically. The Cu2Se bulk with such a unique porous structure shows enhanced thermoelectric figure-of-merit up to ∼2.1 at 873 K owing to the conspicuously reduced thermal conductivity, which can be attributed to the increased phonon scattering. Moreover, the porous Cu2Se bulk also possesses higher mechanical robustness compared with traditional porous-structured material because of the corrugated surface, which is promising for making thermoelectric modules.",

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author = "Jixing Liu and Meng Li and Shenghui Yang and Shengnan Zhang and Jianqing Feng and Chengshan Li and Pingxiang Zhang and Lian Zhou",

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T1 - Enhanced thermoelectric and mechanical properties in hierarchical tubular porous cuprous selenide

AU - Liu, Jixing

AU - Li, Meng

AU - Yang, Shenghui

AU - Zhang, Shengnan

AU - Feng, Jianqing

AU - Li, Chengshan

AU - Zhang, Pingxiang

AU - Zhou, Lian

PY - 2020/2

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N2 - Superionic thermoelectric Cu2Se bulks are successfully acquired via an identical gas reinforced eutectic transformation (gasar) process based on its melting-congruent nature. The gasar synthesis process introduces tubular pores to Cu2Se matrix, which have hierarchical size and corrugated surface, and are distributed homogeneously and isotopically. The Cu2Se bulk with such a unique porous structure shows enhanced thermoelectric figure-of-merit up to ∼2.1 at 873 K owing to the conspicuously reduced thermal conductivity, which can be attributed to the increased phonon scattering. Moreover, the porous Cu2Se bulk also possesses higher mechanical robustness compared with traditional porous-structured material because of the corrugated surface, which is promising for making thermoelectric modules.

AB - Superionic thermoelectric Cu2Se bulks are successfully acquired via an identical gas reinforced eutectic transformation (gasar) process based on its melting-congruent nature. The gasar synthesis process introduces tubular pores to Cu2Se matrix, which have hierarchical size and corrugated surface, and are distributed homogeneously and isotopically. The Cu2Se bulk with such a unique porous structure shows enhanced thermoelectric figure-of-merit up to ∼2.1 at 873 K owing to the conspicuously reduced thermal conductivity, which can be attributed to the increased phonon scattering. Moreover, the porous Cu2Se bulk also possesses higher mechanical robustness compared with traditional porous-structured material because of the corrugated surface, which is promising for making thermoelectric modules.

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Enhanced thermoelectric and mechanical properties in hierarchical tubular porous cuprous selenide

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