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Non-Rigid Band Structure in Mg2Ge for Improved Thermoelectric Performance.


ABSTRACT: Magnesium silicide and its solid solutions are among the most attractive materials for thermoelectric generators in the temperature range of 500-800 K. However, while n-type Mg2(Si,Ge,Sn) materials show excellent thermoelectric performance, the corresponding p-type solid solutions are still inferior, mainly due to less favorable properties of the valence bands compared to the conduction bands. Here, Li doped Mg2Ge with a thermoelectric figure of merit zT of 0.5 at 700 K is reported, which is four times higher than that of p-type Mg2Si and double than that of p-type Mg2Sn. The reason for the excellent properties is an unusual temperature dependence of Seebeck coefficient and electrical conductivity compared to a standard highly doped semiconductor. The properties cannot be captured assuming a rigid band structure but well reproduced assuming two parabolic valence bands with a strong temperature dependent interband separation. According to the analysis, the difference in energy between the two bands decrease with temperature, leading to a band convergence at around 650 K and finally to an inversion of the band positions. The finding of a combination of a light and a heavy band that are non-rigid with temperature can pave the way for further optimization of p-type Mg2(Si,Ge,Sn).

SUBMITTER: Kamila H 

PROVIDER: S-EPMC7312433 | biostudies-literature | 2020 Jun

REPOSITORIES: biostudies-literature

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Non-Rigid Band Structure in Mg<sub>2</sub>Ge for Improved Thermoelectric Performance.

Kamila Hasbuna H   Sankhla Aryan A   Yasseri Mohammad M   Mueller Eckhard E   de Boor Johannes J  

Advanced science (Weinheim, Baden-Wurttemberg, Germany) 20200430 12


Magnesium silicide and its solid solutions are among the most attractive materials for thermoelectric generators in the temperature range of 500-800 K. However, while n-type Mg<sub>2</sub>(Si,Ge,Sn) materials show excellent thermoelectric performance, the corresponding p-type solid solutions are still inferior, mainly due to less favorable properties of the valence bands compared to the conduction bands. Here, Li doped Mg<sub>2</sub>Ge with a thermoelectric figure of merit zT of 0.5 at 700 K is  ...[more]

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