Thermoelectric Figure-of-Merit of Nanostructured Silicon with a Low Concentration of Germanium

Gaohua Zhu; Hohyun Lee; Yucheng Lan; Xiaowei Wang; Giri Joshi; Dezhi Wang; Jian Yang; Mildred Dresselhaus; Gang Chen; Zhifeng Ren

Thermoelectric Figure-of-Merit of Nanostructured Silicon with a Low Concentration of Germanium

POSTER

Abstract

The thermoelectric properties of nanostructured silicon (Si) with a low concentration of germanium (Ge) are investigated. A low concentration of Ge leads to a significant cost reduction of the final product since Ge is at least 100 times more expensive than Si. By using only 5 atomic {\%} Ge (Si$_{95}$Ge$_{5})$, we have achieved a thermoelectric figure-of-merit (\textit{ZT}) of 0.95, similar to the \textit{ZT} in the large grained Si$_{80}$Ge$_{20}$ alloy that is three times more expensive, and is almost four times that of the large grained bulk Si. The enhancement in the thermoelectric \textit{ZT} for the nanostructured Si$_{95}$Ge$_{5}$ is mostly due to the reduced thermal conductivity caused by phonon scattering at the increased grain boundaries and the Ge alloying effect.

Authors

Gaohua Zhu
- Boston College
Hohyun Lee
- Department of Mechanical Engineering, Massachusetts Institute of Technology
- MIT
Yucheng Lan
- Department of Physics, Boston College
- Boston College
Xiaowei Wang
- Department of Physics, Boston College
- Boston College
Giri Joshi
- Department of Physics, Boston College
- Boston College
Dezhi Wang
- Boston College
Jian Yang
- Boston College
Mildred Dresselhaus
- Massachusetts Institute of Technology
- MIT
- Department of Physics and 2. Department of Electrical Engineering and Computer Science, MIT
- ECCS, MIT, USA
Gang Chen
- Department of Mechanical Engineering, Massachusetts Institute of Technology
- MIT
- Mass. Institute of Technology
Zhifeng Ren
- Physics Department, Boston College, Chestnut Hill, MA 02467
- Department of Physics, Boston Colleg
- Boston College