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Article Abstract
The emerged strategy of manipulating the rhombohedral crystal structure provides another new degree of freedom for optimizing the thermoelectric properties of GeTe-based compounds. However, the concept is difficult to be effectively measured and often depends on heavy doping that scatters carriers severely. Herein, we synergistically manipulate lattice distortion and vacancy concentration to promote the excellent electrical transport of GeTe-CuTe alloys and quantify the interaxial angle-dependent density of state effective mass. Distinct from the conventional electronic coupling effect, about 2% substitution of Zr significantly increases the interaxial angle, thereby enhancing the band convergence effect and improving the Seebeck coefficient. In addition, Ge-compensation attenuates the mobility deterioration, leading to improved power factor over the whole temperature range, especially exceeding ∼22 μW cm K at 300 K. Furthermore, the Debye-Callaway model elucidates low lattice thermal conductivity due to strong phonon scattering from Zr/Ge substitutional defects. As a result, the highest figure of merit of ∼1.6 (at 650 K) and average of ∼0.9 (300-750 K) are obtained in (GeZrTe)(CuTe). This work demonstrates the effective band modulation of Zr on GeTe-based materials, indicating that the modification of the interaxial angle is a deep pathway to improve thermoelectrics.
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| http://dx.doi.org/10.1021/acsami.2c20740 | DOI Listing |
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Article Synopsis
- * About 2% substitution of Zr increases the interaxial angle, improving the Seebeck coefficient and maintaining carrier mobility, resulting in a power factor exceeding 22 μW cm K at 300 K.
- * The findings achieve a high figure of merit of ∼1.6 at 650 K and an average of ∼0.9 from 300-750 K, highlighting that adjusting the interaxial angle is crucial for advancing thermoelectric materials.
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