Thermoelectric properties of p-type Mg2Si0.6Ge 0.4 fabricated by bulk mechanical alloying and hot pressing

R. B. Song; Y. Z. Liu; T. Aizawa

doi:10.1002/pssr.200701188

Thermoelectric properties of p-type Mg₂Si_0.6Ge _0.4 fabricated by bulk mechanical alloying and hot pressing

R. B. Song, Y. Z. Liu, T. Aizawa

Research output: Contribution to journal › Article › peer-review

10 Citations (Scopus)

Abstract

Bulk mechanical alloying (BMA) followed by hot pressing (HP) was used to prepare Mg₂Si_0.6Ge_0.4 thermoelectric material with high densification. Starting from the elemental power mixture, the Mg ₂Si_0.6Ge_0.4 solid solution was solid-state synthesized via BMA. In fact, the peaks for the cubic-structured Mg ₂Si_0.6Ge_0.4 solid solution phase were detected after 300 cycles in BMA. The single phase of Mg₂Si _0.6Ge_0.4 was synthesized at 600 cycles in BMA. Mg ₂Si_0.6Ge_0.4 showed p-type semiconduction without doping. Effects of hot pressing conditions on thermoelectric properties were investigated. With increasing hot pressing temperature from 673 to 773 K and pressure from 500 MPa to 1 GPa, the electrical conductivity increased and the Seebeck coefficient decreased. The maximum figure of merit was obtained with the processing parameter of 600 cycles BMA and hot pressing at 773 K, 1 GPa for 1 h.

Original language	English
Pages (from-to)	226-228
Number of pages	3
Journal	Physica Status Solidi - Rapid Research Letters
Volume	1
Issue number	6
DOIs	https://doi.org/10.1002/pssr.200701188
Publication status	Published - 2007
Externally published	Yes

ASJC Scopus subject areas

Materials Science(all)
Condensed Matter Physics

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10.1002/pssr.200701188

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title = "Thermoelectric properties of p-type Mg2Si0.6Ge 0.4 fabricated by bulk mechanical alloying and hot pressing",

abstract = "Bulk mechanical alloying (BMA) followed by hot pressing (HP) was used to prepare Mg2Si0.6Ge0.4 thermoelectric material with high densification. Starting from the elemental power mixture, the Mg 2Si0.6Ge0.4 solid solution was solid-state synthesized via BMA. In fact, the peaks for the cubic-structured Mg 2Si0.6Ge0.4 solid solution phase were detected after 300 cycles in BMA. The single phase of Mg2Si 0.6Ge0.4 was synthesized at 600 cycles in BMA. Mg 2Si0.6Ge0.4 showed p-type semiconduction without doping. Effects of hot pressing conditions on thermoelectric properties were investigated. With increasing hot pressing temperature from 673 to 773 K and pressure from 500 MPa to 1 GPa, the electrical conductivity increased and the Seebeck coefficient decreased. The maximum figure of merit was obtained with the processing parameter of 600 cycles BMA and hot pressing at 773 K, 1 GPa for 1 h.",

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year = "2007",

doi = "10.1002/pssr.200701188",

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AU - Song, R. B.

AU - Liu, Y. Z.

AU - Aizawa, T.

PY - 2007

Y1 - 2007

N2 - Bulk mechanical alloying (BMA) followed by hot pressing (HP) was used to prepare Mg2Si0.6Ge0.4 thermoelectric material with high densification. Starting from the elemental power mixture, the Mg 2Si0.6Ge0.4 solid solution was solid-state synthesized via BMA. In fact, the peaks for the cubic-structured Mg 2Si0.6Ge0.4 solid solution phase were detected after 300 cycles in BMA. The single phase of Mg2Si 0.6Ge0.4 was synthesized at 600 cycles in BMA. Mg 2Si0.6Ge0.4 showed p-type semiconduction without doping. Effects of hot pressing conditions on thermoelectric properties were investigated. With increasing hot pressing temperature from 673 to 773 K and pressure from 500 MPa to 1 GPa, the electrical conductivity increased and the Seebeck coefficient decreased. The maximum figure of merit was obtained with the processing parameter of 600 cycles BMA and hot pressing at 773 K, 1 GPa for 1 h.

AB - Bulk mechanical alloying (BMA) followed by hot pressing (HP) was used to prepare Mg2Si0.6Ge0.4 thermoelectric material with high densification. Starting from the elemental power mixture, the Mg 2Si0.6Ge0.4 solid solution was solid-state synthesized via BMA. In fact, the peaks for the cubic-structured Mg 2Si0.6Ge0.4 solid solution phase were detected after 300 cycles in BMA. The single phase of Mg2Si 0.6Ge0.4 was synthesized at 600 cycles in BMA. Mg 2Si0.6Ge0.4 showed p-type semiconduction without doping. Effects of hot pressing conditions on thermoelectric properties were investigated. With increasing hot pressing temperature from 673 to 773 K and pressure from 500 MPa to 1 GPa, the electrical conductivity increased and the Seebeck coefficient decreased. The maximum figure of merit was obtained with the processing parameter of 600 cycles BMA and hot pressing at 773 K, 1 GPa for 1 h.

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Thermoelectric properties of p-type Mg₂Si_0.6Ge _0.4 fabricated by bulk mechanical alloying and hot pressing

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