Issue 44, 2022

Enhanced thermoelectric performance in high-defect SnTe alloys: a significant role of carrier scattering

Abstract

High-level alloying is an effective approach to achieve high thermoelectric performance of SnTe-based materials with high intrinsic defects and poor band structure, but higher concentrations of defects severely deteriorate mobility and lead to erroneous assessment of carrier transport by conventional electrical models. Here, we introduce sufficient Sb2Te3 and Cd into the SnTe matrix to generate more vacancies, and further analyze the possible carrier scattering mechanism and performance tuning. As a result, the synergistic effect of Sb2Te3 and Cd optimizes the band structure and reintegrates the multivalent band transport. The quantified carrier scattering mechanism dominated by alloy scattering and ionized impurity scattering rationally explains the mobility degradation after heavy doping, and confirms a higher optimal carrier concentration of ∼1020 cm−3 in convergent SnTe materials. Furthermore, the vacancies and substitution defects trigger more lattice disorder, which further scatters phonons and leads to low lattice thermal conductivity. Consequently, a peak zT of ∼1.3 (at 753 K) and a remarkable average zT of ∼0.87 (303–853 K) are achieved in the Sn0.94Cd0.06Te-0.08Sb2Te3 sample. This work is instructive for the decoupling and optimization of highly defective SnTe-based electron–phonon transport, and provides an effective strategy for potential applications in other thermoelectric materials.

Graphical abstract: Enhanced thermoelectric performance in high-defect SnTe alloys: a significant role of carrier scattering

Supplementary files

Article information

Article type
Paper
Submitted
03 Sep 2022
Accepted
20 Oct 2022
First published
20 Oct 2022

J. Mater. Chem. A, 2022,10, 23521-23530

Enhanced thermoelectric performance in high-defect SnTe alloys: a significant role of carrier scattering

F. Zhang, X. Zhao, R. Li, S. He, X. Tan, J. Zhu and R. Ang, J. Mater. Chem. A, 2022, 10, 23521 DOI: 10.1039/D2TA06980F

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