Temperature and isotope effects on the thermoelectric properties in SnTe

Yong Lu; Fawei Zheng; Ping Zhang; Xiaohong Shao; Dong Bo Zhang

doi:10.1088/1361-648X/aa63a9

Temperature and isotope effects on the thermoelectric properties in SnTe

Yong Lu, Fawei Zheng, Ping Zhang, Xiaohong Shao, Dong Bo Zhang

科研成果: 期刊稿件 › 文章 › 同行评审

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摘要

The temperature and Sn isotope effects on SnTe are investigated using the hybrid scheme that combines ab initio molecular dynamics and lattice dynamics (AIMD + LD). The unstable softening of TA phonon mode at 0 K in cubic phase SnTe disappears and the TO mode is stiffened by considering the temperature effect, in agreement with the inelastic neutron scattering (INS) observations. A linear dependence on isotope mass of phonon frequency, lifetime, and mean free path for isolate phonon mode is observed with the possibility of positive, negative, and nearly zero shifts. The lattice thermal conductivity () shows saturation characteristic as Sn isotope mass increases to ¹²⁰SnTe, with an increase rate of ∼2.1% from ¹¹²SnTe to ¹²⁴SnTe. Considering the effects of partial isotope doping, we obtain a reduced with respect to the undoped case. The is reduced by ∼14.6% at 600 K when considering the volumetric expansion.

源语言	英语
文章编号	175701
期刊	Journal of Physics Condensed Matter
卷	29
期	17
DOI	https://doi.org/10.1088/1361-648X/aa63a9
出版状态	已出版 - 23 3月 2017
已对外发布	是

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title = "Temperature and isotope effects on the thermoelectric properties in SnTe",

abstract = "The temperature and Sn isotope effects on SnTe are investigated using the hybrid scheme that combines ab initio molecular dynamics and lattice dynamics (AIMD + LD). The unstable softening of TA phonon mode at 0 K in cubic phase SnTe disappears and the TO mode is stiffened by considering the temperature effect, in agreement with the inelastic neutron scattering (INS) observations. A linear dependence on isotope mass of phonon frequency, lifetime, and mean free path for isolate phonon mode is observed with the possibility of positive, negative, and nearly zero shifts. The lattice thermal conductivity () shows saturation characteristic as Sn isotope mass increases to 120SnTe, with an increase rate of ∼2.1% from 112SnTe to 124SnTe. Considering the effects of partial isotope doping, we obtain a reduced with respect to the undoped case. The is reduced by ∼14.6% at 600 K when considering the volumetric expansion.",

keywords = "isotope effect, phonon quasi-particle, thermoelectric property",

author = "Yong Lu and Fawei Zheng and Ping Zhang and Xiaohong Shao and Zhang, {Dong Bo}",

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T1 - Temperature and isotope effects on the thermoelectric properties in SnTe

AU - Lu, Yong

AU - Zheng, Fawei

AU - Zhang, Ping

AU - Shao, Xiaohong

AU - Zhang, Dong Bo

PY - 2017/3/23

Y1 - 2017/3/23

N2 - The temperature and Sn isotope effects on SnTe are investigated using the hybrid scheme that combines ab initio molecular dynamics and lattice dynamics (AIMD + LD). The unstable softening of TA phonon mode at 0 K in cubic phase SnTe disappears and the TO mode is stiffened by considering the temperature effect, in agreement with the inelastic neutron scattering (INS) observations. A linear dependence on isotope mass of phonon frequency, lifetime, and mean free path for isolate phonon mode is observed with the possibility of positive, negative, and nearly zero shifts. The lattice thermal conductivity () shows saturation characteristic as Sn isotope mass increases to 120SnTe, with an increase rate of ∼2.1% from 112SnTe to 124SnTe. Considering the effects of partial isotope doping, we obtain a reduced with respect to the undoped case. The is reduced by ∼14.6% at 600 K when considering the volumetric expansion.

AB - The temperature and Sn isotope effects on SnTe are investigated using the hybrid scheme that combines ab initio molecular dynamics and lattice dynamics (AIMD + LD). The unstable softening of TA phonon mode at 0 K in cubic phase SnTe disappears and the TO mode is stiffened by considering the temperature effect, in agreement with the inelastic neutron scattering (INS) observations. A linear dependence on isotope mass of phonon frequency, lifetime, and mean free path for isolate phonon mode is observed with the possibility of positive, negative, and nearly zero shifts. The lattice thermal conductivity () shows saturation characteristic as Sn isotope mass increases to 120SnTe, with an increase rate of ∼2.1% from 112SnTe to 124SnTe. Considering the effects of partial isotope doping, we obtain a reduced with respect to the undoped case. The is reduced by ∼14.6% at 600 K when considering the volumetric expansion.

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KW - phonon quasi-particle

KW - thermoelectric property

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Temperature and isotope effects on the thermoelectric properties in SnTe

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