Abstract
Germanium telluride (GeTe) compounds exhibit excellent thermoelectric performance. In this study, copper selenide (Cu2Se) was used to tune the crystal structure and carrier concentration (nH) of GeTe materials. The zT of the 1% Cu2Se-doped GeTe sample reaches 1.32, which is 52% higher than that of the pure phase. The results show that Cu2Se tunes the GeTe crystal structure and carrier concentration to achieve promising enhancements to the thermoelectric performance. Meanwhile, a herringbone-like crystal structure that reduces the lattice thermal conductivity was observed. However, because the directional movement of Cu ions at high temperatures leads to an increase in electrical conductivity, the electronic thermal conductivity also increased. This study focuses on crystal engineering strategies for the study of nontoxic thermoelectric materials.
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