4.6 Article

Lattice strain and band overlap of the thermoelectric composite Mg2Si1-xSnx

期刊

PHYSICAL REVIEW B
卷 106, 期 10, 页码 -

出版社

AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.106.104303

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资金

  1. National Natural Science Foundation of China [12074241, 11929401, 52130204]
  2. Science and Technol- ogy Commission of Shanghai Municipality [19010500500, 22XD1400900, 20501130600, 21JC1402600]
  3. Key Research Project of Zhejiang Lab [2021PE0AC02]
  4. High Performance Comput- ing Center, Shanghai University

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This study investigates the changes in band edge of Mg2Si1-xSnx solid solutions using first-principles calculations and finds that strain and disorder play important roles in enhancing the thermoelectric performance.
Mg2Si1-xSnx solid solutions show enhanced thermoelectric performance when the Sn mole fraction x is approximately x = 0.7. This has been discussed in terms of complexity of the electronic structure arising from the crossover of two bottom conduction bands, but direct detailed understanding of the origins and the precise nature of this band convergence is limited. Here, we report first-principles calculations of the band edge changes analyzed by band unfolding and crystal orbital Hamilton population techniques. We find that strain is particularly important at this crossing. Mg2Si and Mg2Sn show opposite trends in the conduction band edge shifts leading to a band crossover at x similar to 0.625. However, there are also important effects due to disorder. Transport calculations show that enhancement of the figure of merit ZT value owes to the combined effects of lattice strain, band edge overlap, composition change, and disorder.

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