Realization of n-type and enhanced thermoelectric performance of p-type BiCuSeO by controlled iron incorporation

Lin Pan; Yudong Lang; Lei Zhao; David Berardan; Emilie Amzallag; Chao Xu; Yufei Gu; Changchun Chen; Li Dong Zhao; Xiadong Shen; Yinong Lyu; Chunhua Lu; Yifeng Wang

doi:10.1039/c8ta03521k

Realization of n-type and enhanced thermoelectric performance of p-type BiCuSeO by controlled iron incorporation

Lin Pan, Yudong Lang, Lei Zhao, David Berardan, Emilie Amzallag, Chao Xu, Yufei Gu, Changchun Chen, Li Dong Zhao, Xiadong Shen, Yinong Lyu, Chunhua Lu, 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

53 引用（Scopus）

摘要

Layered oxyselenide BiCuSeO has recently attracted much attention as a promising p-type eco-friendly thermoelectric material. The future development of BiCuSeO-based thermoelectric modules requires compatible p- and n-type materials. In the present work, we show that n-type BiCuSeO can be obtained below 500 K by substituting Fe for Cu in pristine BiCuSeO. Besides, co-substitution of Fe for Cu in p-type doped Bi_0.94Pb_0.06CuSeO can enhance both S and σ, which originates from high hole mobility with relatively high hole concentration, improving the power factor of BiCuSeO remarkably to above 0.9 mW m^-1 K^-2 in the whole temperature range while maintaining a low thermal conductivity. A high ZT_peak of around 1.5 at 873 K with an average ZT of around 1 between 310 K and 873 K was reproducibly obtained for p-type Bi_0.94Pb_0.06Cu_0.99Fe_0.01SeO. This new substitution opens a new direction that could pave the way for practical application of combined p- and n-type BiCuSeO in thermoelectric modules.

源语言	英语
页（从-至）	13340-13349
页数	10
期刊	Journal of Materials Chemistry A
卷	6
期	27
DOI	https://doi.org/10.1039/c8ta03521k
出版状态	已出版 - 2018

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title = "Realization of n-type and enhanced thermoelectric performance of p-type BiCuSeO by controlled iron incorporation",

abstract = "Layered oxyselenide BiCuSeO has recently attracted much attention as a promising p-type eco-friendly thermoelectric material. The future development of BiCuSeO-based thermoelectric modules requires compatible p- and n-type materials. In the present work, we show that n-type BiCuSeO can be obtained below 500 K by substituting Fe for Cu in pristine BiCuSeO. Besides, co-substitution of Fe for Cu in p-type doped Bi0.94Pb0.06CuSeO can enhance both S and σ, which originates from high hole mobility with relatively high hole concentration, improving the power factor of BiCuSeO remarkably to above 0.9 mW m-1 K-2 in the whole temperature range while maintaining a low thermal conductivity. A high ZTpeak of around 1.5 at 873 K with an average ZT of around 1 between 310 K and 873 K was reproducibly obtained for p-type Bi0.94Pb0.06Cu0.99Fe0.01SeO. This new substitution opens a new direction that could pave the way for practical application of combined p- and n-type BiCuSeO in thermoelectric modules.",

author = "Lin Pan and Yudong Lang and Lei Zhao and David Berardan and Emilie Amzallag and Chao Xu and Yufei Gu and Changchun Chen and Zhao, {Li Dong} and Xiadong Shen and Yinong Lyu and Chunhua Lu and Yifeng Wang",

note = "Publisher Copyright: {\textcopyright} 2018 The Royal Society of Chemistry.",

year = "2018",

doi = "10.1039/c8ta03521k",

language = "英语",

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T1 - Realization of n-type and enhanced thermoelectric performance of p-type BiCuSeO by controlled iron incorporation

AU - Pan, Lin

AU - Lang, Yudong

AU - Zhao, Lei

AU - Berardan, David

AU - Amzallag, Emilie

AU - Xu, Chao

AU - Gu, Yufei

AU - Chen, Changchun

AU - Zhao, Li Dong

AU - Shen, Xiadong

AU - Lyu, Yinong

AU - Lu, Chunhua

AU - Wang, Yifeng

PY - 2018

Y1 - 2018

N2 - Layered oxyselenide BiCuSeO has recently attracted much attention as a promising p-type eco-friendly thermoelectric material. The future development of BiCuSeO-based thermoelectric modules requires compatible p- and n-type materials. In the present work, we show that n-type BiCuSeO can be obtained below 500 K by substituting Fe for Cu in pristine BiCuSeO. Besides, co-substitution of Fe for Cu in p-type doped Bi0.94Pb0.06CuSeO can enhance both S and σ, which originates from high hole mobility with relatively high hole concentration, improving the power factor of BiCuSeO remarkably to above 0.9 mW m-1 K-2 in the whole temperature range while maintaining a low thermal conductivity. A high ZTpeak of around 1.5 at 873 K with an average ZT of around 1 between 310 K and 873 K was reproducibly obtained for p-type Bi0.94Pb0.06Cu0.99Fe0.01SeO. This new substitution opens a new direction that could pave the way for practical application of combined p- and n-type BiCuSeO in thermoelectric modules.

AB - Layered oxyselenide BiCuSeO has recently attracted much attention as a promising p-type eco-friendly thermoelectric material. The future development of BiCuSeO-based thermoelectric modules requires compatible p- and n-type materials. In the present work, we show that n-type BiCuSeO can be obtained below 500 K by substituting Fe for Cu in pristine BiCuSeO. Besides, co-substitution of Fe for Cu in p-type doped Bi0.94Pb0.06CuSeO can enhance both S and σ, which originates from high hole mobility with relatively high hole concentration, improving the power factor of BiCuSeO remarkably to above 0.9 mW m-1 K-2 in the whole temperature range while maintaining a low thermal conductivity. A high ZTpeak of around 1.5 at 873 K with an average ZT of around 1 between 310 K and 873 K was reproducibly obtained for p-type Bi0.94Pb0.06Cu0.99Fe0.01SeO. This new substitution opens a new direction that could pave the way for practical application of combined p- and n-type BiCuSeO in thermoelectric modules.

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M3 - 文章

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SN - 2050-7488

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SP - 13340

EP - 13349

JO - Journal of Materials Chemistry A

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Realization of n-type and enhanced thermoelectric performance of p-type BiCuSeO by controlled iron incorporation

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