3D charge and 2D phonon transports leading to high out-of-plane ZT in n-type SnSe crystals

Cheng Chang; Minghui Wu; Dongsheng He; Yanling Pei; Chao Feng Wu; Xuefeng Wu; Hulei Yu; Fangyuan Zhu; Kedong Wang; Yue Chen; Li Huang; Jing Feng Li; Jiaqing He; Li Dong Zhao

doi:10.1126/science.aaq1479

3D charge and 2D phonon transports leading to high out-of-plane ZT in n-type SnSe crystals

Cheng Chang
, Minghui Wu
, Dongsheng He
, Yanling Pei
, Chao Feng Wu
, Xuefeng Wu
, Hulei Yu
, Fangyuan Zhu
, Kedong Wang
, Yue Chen
, Li Huang
, Jing Feng Li
, Jiaqing He^*
, Li Dong Zhao

^*Corresponding author for this work

School of Materials Science and Engineering

Southern University of Science and Technology
Tsinghua University
The University of Hong Kong
Chinese Academy of Sciences

Research output: Contribution to journal › Article › peer-review

1136 Scopus citations

Abstract

Thermoelectric technology enables the harvest of waste heat and its direct conversion into electricity. The conversion efficiency is determined by the materials figure of merit ZT. Here we show a maximum ZT of ~2.8 ± 0.5 at 773 kelvin in n-type tin selenide (SnSe) crystals out of plane. The thermal conductivity in layered SnSe crystals is the lowest in the out-of-plane direction [two-dimensional (2D) phonon transport].We doped SnSe with bromine to make n-type SnSe crystals with the overlapping interlayer charge density (3D charge transport). A continuous phase transition increases the symmetry and diverges two converged conduction bands. These two factors improve carrier mobility, while preserving a large Seebeck coefficient. Our findings can be applied in 2D layered materials and provide a new strategy to enhance out-of-plane electrical transport properties without degrading thermal properties.

Original language	English
Pages (from-to)	778-783
Number of pages	6
Journal	Science
Volume	360
Issue number	6390
DOIs	https://doi.org/10.1126/science.aaq1479
State	Published - 18 May 2018

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title = "3D charge and 2D phonon transports leading to high out-of-plane ZT in n-type SnSe crystals",

abstract = "Thermoelectric technology enables the harvest of waste heat and its direct conversion into electricity. The conversion efficiency is determined by the materials figure of merit ZT. Here we show a maximum ZT of \textasciitilde{}2.8 ± 0.5 at 773 kelvin in n-type tin selenide (SnSe) crystals out of plane. The thermal conductivity in layered SnSe crystals is the lowest in the out-of-plane direction [two-dimensional (2D) phonon transport].We doped SnSe with bromine to make n-type SnSe crystals with the overlapping interlayer charge density (3D charge transport). A continuous phase transition increases the symmetry and diverges two converged conduction bands. These two factors improve carrier mobility, while preserving a large Seebeck coefficient. Our findings can be applied in 2D layered materials and provide a new strategy to enhance out-of-plane electrical transport properties without degrading thermal properties.",

author = "Cheng Chang and Minghui Wu and Dongsheng He and Yanling Pei and Wu, \{Chao Feng\} and Xuefeng Wu and Hulei Yu and Fangyuan Zhu and Kedong Wang and Yue Chen and Li Huang and Li, \{Jing Feng\} and Jiaqing He and Zhao, \{Li Dong\}",

year = "2018",

month = may,

day = "18",

doi = "10.1126/science.aaq1479",

language = "英语",

volume = "360",

pages = "778--783",

journal = "Science",

issn = "0036-8075",

publisher = "American Association for the Advancement of Science",

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TY - JOUR

T1 - 3D charge and 2D phonon transports leading to high out-of-plane ZT in n-type SnSe crystals

AU - Chang, Cheng

AU - Wu, Minghui

AU - He, Dongsheng

AU - Pei, Yanling

AU - Wu, Chao Feng

AU - Wu, Xuefeng

AU - Yu, Hulei

AU - Zhu, Fangyuan

AU - Wang, Kedong

AU - Chen, Yue

AU - Huang, Li

AU - Li, Jing Feng

AU - He, Jiaqing

AU - Zhao, Li Dong

PY - 2018/5/18

Y1 - 2018/5/18

N2 - Thermoelectric technology enables the harvest of waste heat and its direct conversion into electricity. The conversion efficiency is determined by the materials figure of merit ZT. Here we show a maximum ZT of ~2.8 ± 0.5 at 773 kelvin in n-type tin selenide (SnSe) crystals out of plane. The thermal conductivity in layered SnSe crystals is the lowest in the out-of-plane direction [two-dimensional (2D) phonon transport].We doped SnSe with bromine to make n-type SnSe crystals with the overlapping interlayer charge density (3D charge transport). A continuous phase transition increases the symmetry and diverges two converged conduction bands. These two factors improve carrier mobility, while preserving a large Seebeck coefficient. Our findings can be applied in 2D layered materials and provide a new strategy to enhance out-of-plane electrical transport properties without degrading thermal properties.

AB - Thermoelectric technology enables the harvest of waste heat and its direct conversion into electricity. The conversion efficiency is determined by the materials figure of merit ZT. Here we show a maximum ZT of ~2.8 ± 0.5 at 773 kelvin in n-type tin selenide (SnSe) crystals out of plane. The thermal conductivity in layered SnSe crystals is the lowest in the out-of-plane direction [two-dimensional (2D) phonon transport].We doped SnSe with bromine to make n-type SnSe crystals with the overlapping interlayer charge density (3D charge transport). A continuous phase transition increases the symmetry and diverges two converged conduction bands. These two factors improve carrier mobility, while preserving a large Seebeck coefficient. Our findings can be applied in 2D layered materials and provide a new strategy to enhance out-of-plane electrical transport properties without degrading thermal properties.

UR - https://www.scopus.com/pages/publications/85047513783

U2 - 10.1126/science.aaq1479

DO - 10.1126/science.aaq1479

M3 - 文章

C2 - 29773748

AN - SCOPUS:85047513783

SN - 0036-8075

VL - 360

SP - 778

EP - 783

JO - Science

JF - Science

IS - 6390

ER -

3D charge and 2D phonon transports leading to high out-of-plane ZT in n-type SnSe crystals

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