Facile precipitation of two phase alloys in SnTe0.75Se 0.25 with improved power factor

Li Ping Tan; Ting Sun; Shufen Fan; Raju V. Ramanujan; Huey Hoon Hng

doi:10.1016/j.jallcom.2013.10.217

Facile precipitation of two phase alloys in SnTe_0.75Se _0.25 with improved power factor

Li Ping Tan, Ting Sun, Shufen Fan, Raju V. Ramanujan, Huey Hoon Hng^*

^*Corresponding author for this work

Nanyang Technological University

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

18 Citations (Scopus)

Abstract

Multiphase thermoelectric (TE) materials have received great interest in recent years due to the synergistic improvements in TE properties. We report for the first time on melt spun samples with nominal composition of SnTe _0.75Se_0.25. Interestingly, an orthorhombic second phase was observed to exhibit change in microstructure under low applied pressure - the metastable nature leads to an observed increase in mass fraction with increased applied pressure - and this second phase can be stabilized by concurrent application of heat and pressure during hot pressing. The second phase reduces electrical resistivity, while increasing Seebeck coefficient values slightly, especially at higher temperatures. A peak power factor of 1.3 mW/m K² is obtained at 494 K, which is a 1.5 times enhancement over the peak power factor of pure SnTe. The peak ZT achieved for the alloy is 0.19 at 548 K, which is three times that of pure SnTe.

Original language	English
Pages (from-to)	420-427
Number of pages	8
Journal	Journal of Alloys and Compounds
Volume	587
DOIs	https://doi.org/10.1016/j.jallcom.2013.10.217
Publication status	Published - 2014
Externally published	Yes

ASJC Scopus Subject Areas

Mechanics of Materials
Mechanical Engineering
Metals and Alloys
Materials Chemistry

Keywords

Composite materials
Rapid solidification
Thermoelectric materials

Access to Document

10.1016/j.jallcom.2013.10.217

Cite this

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title = "Facile precipitation of two phase alloys in SnTe0.75Se 0.25 with improved power factor",

abstract = "Multiphase thermoelectric (TE) materials have received great interest in recent years due to the synergistic improvements in TE properties. We report for the first time on melt spun samples with nominal composition of SnTe 0.75Se0.25. Interestingly, an orthorhombic second phase was observed to exhibit change in microstructure under low applied pressure - the metastable nature leads to an observed increase in mass fraction with increased applied pressure - and this second phase can be stabilized by concurrent application of heat and pressure during hot pressing. The second phase reduces electrical resistivity, while increasing Seebeck coefficient values slightly, especially at higher temperatures. A peak power factor of 1.3 mW/m K2 is obtained at 494 K, which is a 1.5 times enhancement over the peak power factor of pure SnTe. The peak ZT achieved for the alloy is 0.19 at 548 K, which is three times that of pure SnTe.",

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AU - Tan, Li Ping

AU - Sun, Ting

AU - Fan, Shufen

AU - Ramanujan, Raju V.

AU - Hng, Huey Hoon

PY - 2014

Y1 - 2014

N2 - Multiphase thermoelectric (TE) materials have received great interest in recent years due to the synergistic improvements in TE properties. We report for the first time on melt spun samples with nominal composition of SnTe 0.75Se0.25. Interestingly, an orthorhombic second phase was observed to exhibit change in microstructure under low applied pressure - the metastable nature leads to an observed increase in mass fraction with increased applied pressure - and this second phase can be stabilized by concurrent application of heat and pressure during hot pressing. The second phase reduces electrical resistivity, while increasing Seebeck coefficient values slightly, especially at higher temperatures. A peak power factor of 1.3 mW/m K2 is obtained at 494 K, which is a 1.5 times enhancement over the peak power factor of pure SnTe. The peak ZT achieved for the alloy is 0.19 at 548 K, which is three times that of pure SnTe.

AB - Multiphase thermoelectric (TE) materials have received great interest in recent years due to the synergistic improvements in TE properties. We report for the first time on melt spun samples with nominal composition of SnTe 0.75Se0.25. Interestingly, an orthorhombic second phase was observed to exhibit change in microstructure under low applied pressure - the metastable nature leads to an observed increase in mass fraction with increased applied pressure - and this second phase can be stabilized by concurrent application of heat and pressure during hot pressing. The second phase reduces electrical resistivity, while increasing Seebeck coefficient values slightly, especially at higher temperatures. A peak power factor of 1.3 mW/m K2 is obtained at 494 K, which is a 1.5 times enhancement over the peak power factor of pure SnTe. The peak ZT achieved for the alloy is 0.19 at 548 K, which is three times that of pure SnTe.

KW - Composite materials

KW - Rapid solidification

KW - Thermoelectric materials

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