Enhanced thermoelectric performance through synergy of resonance levels and valence band convergence via Q/In (Q = Mg, Ag, Bi) co-doping

产品简述

期刊

Journal of Materials Chemistry A


标题

Enhanced thermoelectric performance through synergy of resonance levels and valence band convergence via Q/In (Q = Mg, Ag, Bi) co-doping


作者

Li Juan Zhang, Peng Qin, Chao Han, Jian Li Wang, Zhen Hua Ge, Qiao Sun, Zhen Xiang Cheng, Zhen Li, Shi Xue Dou


摘要

The temperature-dependent evolution of heavy-hole valence band contribution to the Seebeck coefficients of SnTe-based thermoelectric materials is revealed in situ by neutron and synchrotron powder diffraction. The additional carriers with high effective mass are created in a heavy-hole valence band above 493 K, which contribute to the electrical transport, and lead to a significant enhancement of the Seebeck coefficient at high temperature. In addition, remarkably improved electrical transport properties are achieved through the synergetic effects of the resonance levels, the valence band convergence, and the carrier concentration optimization by co-doping with Mg & In, Ag & In and Bi & In. Significant reduction in the lattice thermal conductivity is obtained by multiscale phonon scattering over a wide spectrum via atomic point defects, nanoscale elongated screw dislocations with random directions, and the microscale grain boundaries caused by sintering. As aresult, a high figure of merit, ZT, of ~1 at 873 K is obtained for the Mg0.015In0.015Sn0.97Te sample.


原文链接

http://pubs.rsc.org/en/content/articlelanding/2018/ta/c7ta09117f#!divAbstract



2018年03月13日

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