Eco-friendly p-type Cu2SnS3 thermoelectric material: Crystal structure and transport properties

Yawei Shen; Chao Li; Rong Huang; Ruoming Tian; Yang Ye; Lin Pan; Kunihito Koumoto; Ruizhi Zhang; Chunlei Wan; Yifeng Wang

doi:10.1038/srep32501

Eco-friendly p-type Cu₂SnS₃ thermoelectric material: Crystal structure and transport properties

Yawei Shen, Chao Li, Rong Huang, Ruoming Tian, Yang Ye, Lin Pan, Kunihito Koumoto, Ruizhi Zhang, Chunlei Wan, Yifeng Wang

材料科学与工程学院

科研成果: 期刊稿件 › 文章 › 同行评审

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摘要

As a new eco-friendly thermoelectric material, copper tin sulfide (Cu₂SnS₃) ceramics were experimentally studied by Zn-doping. Excellent electrical transport properties were obtained by virtue of 3-dimensionally conductive network for holes, which are less affected by the coexistence of cubic and tetragonal phases that formed upon Zn subsitition for Sn; a highest power factors ∼0.84 mW m^-1 K^-2 at 723 K was achieved in the 20% doped sample. Moreover, an ultralow lattice thermal conductivity close to theoretical minimum was observed in these samples, which could be related to the disordering of atoms in the coexisting cubic and tetragonal phases and the interfaces. Thanks to the phonon-glass-electron-crystal features, a maximum ZT ∼ 0.58 was obtained at 723 K, which stands among the tops for sulfide thermoelectrics at the same temperature.

源语言	英语
文章编号	32501
期刊	Scientific Reports
卷	6
DOI	https://doi.org/10.1038/srep32501
出版状态	已出版 - 26 9月 2016

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abstract = "As a new eco-friendly thermoelectric material, copper tin sulfide (Cu2SnS3) ceramics were experimentally studied by Zn-doping. Excellent electrical transport properties were obtained by virtue of 3-dimensionally conductive network for holes, which are less affected by the coexistence of cubic and tetragonal phases that formed upon Zn subsitition for Sn; a highest power factors ∼0.84 mW m-1 K-2 at 723 K was achieved in the 20% doped sample. Moreover, an ultralow lattice thermal conductivity close to theoretical minimum was observed in these samples, which could be related to the disordering of atoms in the coexisting cubic and tetragonal phases and the interfaces. Thanks to the phonon-glass-electron-crystal features, a maximum ZT ∼ 0.58 was obtained at 723 K, which stands among the tops for sulfide thermoelectrics at the same temperature.",

author = "Yawei Shen and Chao Li and Rong Huang and Ruoming Tian and Yang Ye and Lin Pan and Kunihito Koumoto and Ruizhi Zhang and Chunlei Wan and Yifeng Wang",

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T1 - Eco-friendly p-type Cu2SnS3 thermoelectric material

T2 - Crystal structure and transport properties

AU - Shen, Yawei

AU - Li, Chao

AU - Huang, Rong

AU - Tian, Ruoming

AU - Ye, Yang

AU - Pan, Lin

AU - Koumoto, Kunihito

AU - Zhang, Ruizhi

AU - Wan, Chunlei

AU - Wang, Yifeng

PY - 2016/9/26

Y1 - 2016/9/26

N2 - As a new eco-friendly thermoelectric material, copper tin sulfide (Cu2SnS3) ceramics were experimentally studied by Zn-doping. Excellent electrical transport properties were obtained by virtue of 3-dimensionally conductive network for holes, which are less affected by the coexistence of cubic and tetragonal phases that formed upon Zn subsitition for Sn; a highest power factors ∼0.84 mW m-1 K-2 at 723 K was achieved in the 20% doped sample. Moreover, an ultralow lattice thermal conductivity close to theoretical minimum was observed in these samples, which could be related to the disordering of atoms in the coexisting cubic and tetragonal phases and the interfaces. Thanks to the phonon-glass-electron-crystal features, a maximum ZT ∼ 0.58 was obtained at 723 K, which stands among the tops for sulfide thermoelectrics at the same temperature.

AB - As a new eco-friendly thermoelectric material, copper tin sulfide (Cu2SnS3) ceramics were experimentally studied by Zn-doping. Excellent electrical transport properties were obtained by virtue of 3-dimensionally conductive network for holes, which are less affected by the coexistence of cubic and tetragonal phases that formed upon Zn subsitition for Sn; a highest power factors ∼0.84 mW m-1 K-2 at 723 K was achieved in the 20% doped sample. Moreover, an ultralow lattice thermal conductivity close to theoretical minimum was observed in these samples, which could be related to the disordering of atoms in the coexisting cubic and tetragonal phases and the interfaces. Thanks to the phonon-glass-electron-crystal features, a maximum ZT ∼ 0.58 was obtained at 723 K, which stands among the tops for sulfide thermoelectrics at the same temperature.

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Eco-friendly p-type Cu2SnS3 thermoelectric material: Crystal structure and transport properties

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Eco-friendly p-type Cu₂SnS₃ thermoelectric material: Crystal structure and transport properties