Enhanced thermoelectric figure of merit in nanostructured n-type silicon germanium bulk alloy

Wang, X. W.; Lee, Hohyun; Lan, Yucheng; Zhu, Gaohua; Joshi, Giri; Wang, D. Z.; Yang, Jin; Muto, A.; Tang, Ming; Klatsky, J.; Song, Shaowei; Dresselhaus, M. S.; Chen, Gang; Ren, Z. F.

doi:10.1063/1.3027060

articleApplied Physics LettersNov 10, 2008Closed access

Enhanced thermoelectric figure of merit in nanostructured n-type silicon germanium bulk alloy

XWX. W. Wang HLHohyun Lee YLYucheng Lan GZGaohua Zhu GJGiri Joshi

Boston College · Massachusetts Institute of Technology

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Abstract

The dimensionless thermoelectric figure of merit (ZT) of the n-type silicon germanium (SiGe) bulk alloy at high temperature has remained at about one for a few decades. Here we report that by using a nanostructure approach, a peak ZT of about 1.3 at 900 °C in an n-type nanostructured SiGe bulk alloy has been achieved. The enhancement of ZT comes mainly from a significant reduction in the thermal conductivity caused by the enhanced phonon scattering off the increased density of nanograin boundaries. The enhanced ZT will make such materials attractive in many applications such as solar, thermal, and waste heat conversion into electricity.

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Topics & keywords

Topics

Keywords

Materials science
Germanium
Thermoelectric effect
Figure of merit
Alloy
Thermoelectric materials
Thermal conductivity
Silicon

UN Sustainable Development Goals

Affordable and clean energy

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