Enhanced Thermoelectric Performance of Cu₂SnSe₃-Based Composites Incorporated with Nano-Fullerene

Degang Zhao; Jiai Ning; Di Wu; Min Zuo

doi:10.3390/ma9080629

Enhanced Thermoelectric Performance of Cu₂SnSe₃-Based Composites Incorporated with Nano-Fullerene

Materials (Basel). 2016 Jul 28;9(8):629. doi: 10.3390/ma9080629.

Authors

Degang Zhao¹, Jiai Ning², Di Wu³, Min Zuo⁴

Affiliations

¹ School of Materials Science and Engineering, University of Jinan, 336 Nan-Xinzhuang West Road, Jinan 250022, China. mse_zhaodg@ujn.edu.cn.
² School of Materials Science and Engineering, University of Jinan, 336 Nan-Xinzhuang West Road, Jinan 250022, China. crystal4885@sina.com.
³ School of Materials Science and Engineering, University of Jinan, 336 Nan-Xinzhuang West Road, Jinan 250022, China. 18366100143@163.com.
⁴ School of Materials Science and Engineering, University of Jinan, 336 Nan-Xinzhuang West Road, Jinan 250022, China. mse_zuom@ujn.edu.cn.

Abstract

In this study, nano-sized fullerene C₆₀ powder was sufficiently mixed with Cu₂SnSe₃ powder by ball milling method, and the C₆₀/Cu₂SnSe₃ composites were prepared by spark plasma sintering technology. The fullerene C₆₀ distributed uniformly in the form of clusters, and the average cluster size was less than 1 μm. With increasing C₆₀ content, the electrical conductivity of C₆₀/Cu₂SnSe₃ composites decreased, while the Seebeck coefficient was enhanced. The thermal conductivity of composites decreased significantly, which resulted from the phonon scattering by the C₆₀ clusters located on the grain boundaries of the Cu₂SnSe₃ matrix. The highest figure of merit ZT of 0.38 was achieved at 700 K for 0.8% C₆₀/Cu₂SnSe₃ composite.

Keywords: C60; Cu2SnSe3; composites; thermoelectric alloy.