Thermoelectric Properties Prediction of n-Type Mg2Si1‑xSnx Compounds by First Principles Calculation
Abstract
A comprehensive analysis has been made of the n-type Mg2Si1‑xSnx (0.25 ≤ x ≤ 0.75) compounds by the first principles calculation method. The calculated band structures in n-type Mg2Si1‑xSnx show the conduction band convergence directly. This convergence in energy at x = 0.625 can enhance the Seebeck coefficient of the solid solution in comparison with other Sn contents. The Seebeck coefficient of Mg2Si0.375Sn0.625 could reach ‑ 246 μV K‑1 at the optimal doping density of 3 × 1020 cm‑3. The enhancement of the Seebeck coefficient in the Mg2Si0.375Sn0.625 alloy results in a higher power factor of 6.2 mW m‑1 K‑2 at T = 550 K, and the predicted figure of merit is 1.53 at T = 700 K. Additionally, the ZT values can be maintained larger than 1.4 in a wide temperature range from 550 K to 800 K.
- Publication:
-
Journal of Electronic Materials
- Pub Date:
- February 2018
- DOI:
- 10.1007/s11664-017-5890-1
- Bibcode:
- 2018JEMat..47.1022L
- Keywords:
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- First principles calculation;
- Mg<SUB>2</SUB>Si<SUB>1‑x</SUB>Sn<SUB>x</SUB> compounds;
- band structure convergence;
- thermoelectric properties