Soft phonon modes from off-center Ge atoms lead to ultralow thermal conductivity and superior thermoelectric performance in n-type PbSe–GeSe

Soft phonon modes from off-center Ge atoms lead to ultralow thermal conductivity and superior thermoelectric performance in n-type PbSe–GeSe

Historically PbSe has underperformed PbTe in thermoelectric efficiency and has been regarded as an inferior relative to its telluride congener. However, the fifty-fold greater natural abundance of Se relative to Te makes PbSe appealing as a thermoelectric material. We report that the n-type GeSe-all...

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Main Authors: Luo, Zhong-Zhen, Hao, Shiqiang, Zhang, Xiaomi, Hua, Xia, Cai, Songting, Tan, Gangjian, Bailey, Trevor P., Ma, Runchu, Uher, Ctirad, Wolverton, Chris, Dravid, Vinayak P., Yan, Qingyu, Kanatzidis, Mercouri G.
Other Authors: School of Materials Science and Engineering
Format: Article
Language:English
Published: 2020
Subjects:
Engineering::Materials
PbSe
PbTe
Online Access:https://hdl.handle.net/10356/143787
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1437872020-09-24T01:40:24Z Soft phonon modes from off-center Ge atoms lead to ultralow thermal conductivity and superior thermoelectric performance in n-type PbSe–GeSe Luo, Zhong-Zhen Hao, Shiqiang Zhang, Xiaomi Hua, Xia Cai, Songting Tan, Gangjian Bailey, Trevor P. Ma, Runchu Uher, Ctirad Wolverton, Chris Dravid, Vinayak P. Yan, Qingyu Kanatzidis, Mercouri G. School of Materials Science and Engineering Engineering::Materials PbSe PbTe Historically PbSe has underperformed PbTe in thermoelectric efficiency and has been regarded as an inferior relative to its telluride congener. However, the fifty-fold greater natural abundance of Se relative to Te makes PbSe appealing as a thermoelectric material. We report that the n-type GeSe-alloyed PbSe system achieves a peak figure of merit, ZT, of ∼1.54 at 773 K and maintains ZT values above 1.2 over a broad temperature range from 623 K to 923 K. The highest performing composition is Sb-doped PbSe–12%GeSe, which exhibits an ultralow lattice thermal conductivity of ∼0.36 W m−1 K−1 at 573 K, close to the limit of amorphous PbSe. Theoretical studies reveal that the alloyed Ge2+ atoms prefer to stay at off-center lattice positions, inducing low frequency modes. The Ge atoms also cause the unexpected behavior where the next nearest atom neighbors (6 Pb atoms) oscillate at lower frequencies than in pure PbSe leading to a large reduction of the Debye temperature and acoustic phonon velocity. The Pb0.9955Sb0.0045Se–12%GeSe system also shows Ge-rich precipitates and many aligned dislocations within its microstructure which also contribute to phonon scattering. The resultant average ZT (ZTavg), a broad measure of the material's potential for functional thermoelectric modules, is 1.06 from 400 K to 800 K, the highest among all previously reported n- and p-type PbSe. This value matches or exceeds even those of the best n-type PbTe-based thermoelectric materials. 2020-09-24T01:40:24Z 2020-09-24T01:40:24Z 2018 Journal Article Luo, Z.-Z., Hao, S., Zhang, X., Hua, X., Cai, S., Tan, G., ... Kanatzidis, M. G. (2018). Soft phonon modes from off-center Ge atoms lead to ultralow thermal conductivity and superior thermoelectric performance in n-type PbSe–GeSe. Energy & Environmental Science, 11(11), 3220-3230. doi:10.1039/C8EE01755G 1754-5692 https://hdl.handle.net/10356/143787 10.1039/C8EE01755G 11 11 3220 3230 en Energy & Environmental Science © 2018 Royal Society of Chemistry. All rights reserved.
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
topic Engineering::Materials
PbSe
PbTe
spellingShingle Engineering::Materials
PbSe
PbTe
Luo, Zhong-Zhen
Hao, Shiqiang
Zhang, Xiaomi
Hua, Xia
Cai, Songting
Tan, Gangjian
Bailey, Trevor P.
Ma, Runchu
Uher, Ctirad
Wolverton, Chris
Dravid, Vinayak P.
Yan, Qingyu
Kanatzidis, Mercouri G.
Soft phonon modes from off-center Ge atoms lead to ultralow thermal conductivity and superior thermoelectric performance in n-type PbSe–GeSe
description Historically PbSe has underperformed PbTe in thermoelectric efficiency and has been regarded as an inferior relative to its telluride congener. However, the fifty-fold greater natural abundance of Se relative to Te makes PbSe appealing as a thermoelectric material. We report that the n-type GeSe-alloyed PbSe system achieves a peak figure of merit, ZT, of ∼1.54 at 773 K and maintains ZT values above 1.2 over a broad temperature range from 623 K to 923 K. The highest performing composition is Sb-doped PbSe–12%GeSe, which exhibits an ultralow lattice thermal conductivity of ∼0.36 W m−1 K−1 at 573 K, close to the limit of amorphous PbSe. Theoretical studies reveal that the alloyed Ge2+ atoms prefer to stay at off-center lattice positions, inducing low frequency modes. The Ge atoms also cause the unexpected behavior where the next nearest atom neighbors (6 Pb atoms) oscillate at lower frequencies than in pure PbSe leading to a large reduction of the Debye temperature and acoustic phonon velocity. The Pb0.9955Sb0.0045Se–12%GeSe system also shows Ge-rich precipitates and many aligned dislocations within its microstructure which also contribute to phonon scattering. The resultant average ZT (ZTavg), a broad measure of the material's potential for functional thermoelectric modules, is 1.06 from 400 K to 800 K, the highest among all previously reported n- and p-type PbSe. This value matches or exceeds even those of the best n-type PbTe-based thermoelectric materials.
author2 School of Materials Science and Engineering
author_facet School of Materials Science and Engineering
Luo, Zhong-Zhen
Hao, Shiqiang
Zhang, Xiaomi
Hua, Xia
Cai, Songting
Tan, Gangjian
Bailey, Trevor P.
Ma, Runchu
Uher, Ctirad
Wolverton, Chris
Dravid, Vinayak P.
Yan, Qingyu
Kanatzidis, Mercouri G.
format Article
author Luo, Zhong-Zhen
Hao, Shiqiang
Zhang, Xiaomi
Hua, Xia
Cai, Songting
Tan, Gangjian
Bailey, Trevor P.
Ma, Runchu
Uher, Ctirad
Wolverton, Chris
Dravid, Vinayak P.
Yan, Qingyu
Kanatzidis, Mercouri G.
author_sort Luo, Zhong-Zhen
title Soft phonon modes from off-center Ge atoms lead to ultralow thermal conductivity and superior thermoelectric performance in n-type PbSe–GeSe
title_short Soft phonon modes from off-center Ge atoms lead to ultralow thermal conductivity and superior thermoelectric performance in n-type PbSe–GeSe
title_full Soft phonon modes from off-center Ge atoms lead to ultralow thermal conductivity and superior thermoelectric performance in n-type PbSe–GeSe
title_fullStr Soft phonon modes from off-center Ge atoms lead to ultralow thermal conductivity and superior thermoelectric performance in n-type PbSe–GeSe
title_full_unstemmed Soft phonon modes from off-center Ge atoms lead to ultralow thermal conductivity and superior thermoelectric performance in n-type PbSe–GeSe
title_sort soft phonon modes from off-center ge atoms lead to ultralow thermal conductivity and superior thermoelectric performance in n-type pbse–gese
publishDate 2020
url https://hdl.handle.net/10356/143787
_version_ 1681058195015991296

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