Effect of processing parameters on thermoelectric properties of p-type (Bi2Te3)0.25(Sb2Te3)0.75 prepared via BMA-HP method

J. Yang; T. Aizawa; A. Yamamoto; T. Ohta

doi:10.1016/S0254-0584(00)00472-7

Effect of processing parameters on thermoelectric properties of p-type (Bi₂Te₃)_0.25(Sb₂Te₃)_0.75 prepared via BMA-HP method

J. Yang, T. Aizawa, A. Yamamoto, T. Ohta

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

57 Citations (Scopus)

Abstract

Starting from elemental granules of Bi, Sb, and Te, p-type (Bi₂Te₃)_0.25(Sb₂Te₃)_0.75 thermoelectric materials was prepared via bulk mechanical alloying (BMA) plus subsequent hot pressing (HP) method in this paper. (Bi₂Te₃)_0.25(Sb₂Te₃)_0.75 solid solution phase appeared after 200 cycles' BMA, and alloying proceeded with increasing BMA cycles. The figures of merit (Z) of the as hot pressed samples increased with BMA cycles' increasing and leveled off after 800 cycles. Increasing the hot pressing temperature from 260 to 420 °C, electrical and thermal conductivity increased; relative densities, figures of merit of the as HPed samples also increased. The maximum figure of merit is obtained as 2.99×10^-3K^-1 with the processing parameter of 800 cycle BMA and hot pressing at 420 °C, 1.2GPa for 1 h. Further prolonging BMA cycles and increasing hot pressing temperature, no evident improvement to thermoelectric properties was resulted in.

Original language	English
Pages (from-to)	90-94
Number of pages	5
Journal	Materials Chemistry and Physics
Volume	70
Issue number	1
DOIs	https://doi.org/10.1016/S0254-0584(00)00472-7
Publication status	Published - 2001 Apr 2
Externally published	Yes

ASJC Scopus subject areas

Materials Science(all)
Condensed Matter Physics

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title = "Effect of processing parameters on thermoelectric properties of p-type (Bi2Te3)0.25(Sb2Te3)0.75 prepared via BMA-HP method",

abstract = "Starting from elemental granules of Bi, Sb, and Te, p-type (Bi2Te3)0.25(Sb2Te3)0.75 thermoelectric materials was prepared via bulk mechanical alloying (BMA) plus subsequent hot pressing (HP) method in this paper. (Bi2Te3)0.25(Sb2Te3)0.75 solid solution phase appeared after 200 cycles' BMA, and alloying proceeded with increasing BMA cycles. The figures of merit (Z) of the as hot pressed samples increased with BMA cycles' increasing and leveled off after 800 cycles. Increasing the hot pressing temperature from 260 to 420 °C, electrical and thermal conductivity increased; relative densities, figures of merit of the as HPed samples also increased. The maximum figure of merit is obtained as 2.99×10-3K-1 with the processing parameter of 800 cycle BMA and hot pressing at 420 °C, 1.2GPa for 1 h. Further prolonging BMA cycles and increasing hot pressing temperature, no evident improvement to thermoelectric properties was resulted in.",

author = "J. Yang and T. Aizawa and A. Yamamoto and T. Ohta",

year = "2001",

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doi = "10.1016/S0254-0584(00)00472-7",

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T1 - Effect of processing parameters on thermoelectric properties of p-type (Bi2Te3)0.25(Sb2Te3)0.75 prepared via BMA-HP method

AU - Yang, J.

AU - Aizawa, T.

AU - Yamamoto, A.

AU - Ohta, T.

PY - 2001/4/2

Y1 - 2001/4/2

N2 - Starting from elemental granules of Bi, Sb, and Te, p-type (Bi2Te3)0.25(Sb2Te3)0.75 thermoelectric materials was prepared via bulk mechanical alloying (BMA) plus subsequent hot pressing (HP) method in this paper. (Bi2Te3)0.25(Sb2Te3)0.75 solid solution phase appeared after 200 cycles' BMA, and alloying proceeded with increasing BMA cycles. The figures of merit (Z) of the as hot pressed samples increased with BMA cycles' increasing and leveled off after 800 cycles. Increasing the hot pressing temperature from 260 to 420 °C, electrical and thermal conductivity increased; relative densities, figures of merit of the as HPed samples also increased. The maximum figure of merit is obtained as 2.99×10-3K-1 with the processing parameter of 800 cycle BMA and hot pressing at 420 °C, 1.2GPa for 1 h. Further prolonging BMA cycles and increasing hot pressing temperature, no evident improvement to thermoelectric properties was resulted in.

AB - Starting from elemental granules of Bi, Sb, and Te, p-type (Bi2Te3)0.25(Sb2Te3)0.75 thermoelectric materials was prepared via bulk mechanical alloying (BMA) plus subsequent hot pressing (HP) method in this paper. (Bi2Te3)0.25(Sb2Te3)0.75 solid solution phase appeared after 200 cycles' BMA, and alloying proceeded with increasing BMA cycles. The figures of merit (Z) of the as hot pressed samples increased with BMA cycles' increasing and leveled off after 800 cycles. Increasing the hot pressing temperature from 260 to 420 °C, electrical and thermal conductivity increased; relative densities, figures of merit of the as HPed samples also increased. The maximum figure of merit is obtained as 2.99×10-3K-1 with the processing parameter of 800 cycle BMA and hot pressing at 420 °C, 1.2GPa for 1 h. Further prolonging BMA cycles and increasing hot pressing temperature, no evident improvement to thermoelectric properties was resulted in.

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IS - 1

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Effect of processing parameters on thermoelectric properties of p-type (Bi₂Te₃)_0.25(Sb₂Te₃)_0.75 prepared via BMA-HP method

Abstract

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