Fabrication and thermoelectric properties of c-axis-aligned Bi 0.5Sb1.5Te3 with a high magnetic field

Dong Hwan Kim; Cham Kim; Koo Chul Je; Gook Hyun Ha; Hoyoung Kim

doi:10.1016/j.actamat.2011.04.040

Fabrication and thermoelectric properties of c-axis-aligned Bi _0.5Sb_1.5Te₃ with a high magnetic field

Dong Hwan Kim
, Cham Kim
, Koo Chul Je
, Gook Hyun Ha
, Hoyoung Kim

Division of Nanotechnology

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

23 Scopus citations

Abstract

We simultaneously investigated the effects of nanostructure and crystal alignment on the thermoelectric performance of polycrystalline Bi _0.5Sb_1.5Te₃. An appropriate experimental procedure was devised for a sequential process of slip-casting under a 6 T magnetic field for c-axis alignment and the use of a spark plasma sinter machine for sintering. Flake-shaped powders with particles less than 36 μm in diameter stacked up with c-axis alignment under a 6 T rotating magnetic field, while the same powders with particles less than 5 μm in diameter showed a random orientation with no magnetic field. The c-axis-aligned material under the magnetic field showed an increase in hole mobility along the direction perpendicular to the c-axis that resulted in a 15% decrease in the electric resistivity, while the Seebeck coefficient and thermal conductivity remained unchanged; thus the figure of merit was improved by 15%. Theoretical evaluation of the electrical resistivity according to the c-axis alignment showed good agreement with the experimental results.

Original language	English
Pages (from-to)	4957-4963
Number of pages	7
Journal	Acta Materialia
Volume	59
Issue number	12
DOIs	https://doi.org/10.1016/j.actamat.2011.04.040
State	Published - Jul 2011

Bibliographical note

Funding Information:
This work was supported by the Energy Efficiency & Resources of the Korea Institute of Energy Technology Evaluation and Planning (KETEP) grant funded by the Ministry of Knowledge Economy, Republic of Korea (No. 2007EID11P050000). The authors gratefully acknowledge Mr. Kil-Yeol Ryu and Mr. Jong-Kyu Choi (Research Institute of Industrial Science and Technology in Pohang city) for their assistance with the EBSD analysis and for valuable discussions.

Keywords

Crystal orientation
High magnetic field
Spark plasma sintering
Thermoelectric

Access to Document

10.1016/j.actamat.2011.04.040

Cite this

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title = "Fabrication and thermoelectric properties of c-axis-aligned Bi 0.5Sb1.5Te3 with a high magnetic field",

abstract = "We simultaneously investigated the effects of nanostructure and crystal alignment on the thermoelectric performance of polycrystalline Bi 0.5Sb1.5Te3. An appropriate experimental procedure was devised for a sequential process of slip-casting under a 6 T magnetic field for c-axis alignment and the use of a spark plasma sinter machine for sintering. Flake-shaped powders with particles less than 36 μm in diameter stacked up with c-axis alignment under a 6 T rotating magnetic field, while the same powders with particles less than 5 μm in diameter showed a random orientation with no magnetic field. The c-axis-aligned material under the magnetic field showed an increase in hole mobility along the direction perpendicular to the c-axis that resulted in a 15\% decrease in the electric resistivity, while the Seebeck coefficient and thermal conductivity remained unchanged; thus the figure of merit was improved by 15\%. Theoretical evaluation of the electrical resistivity according to the c-axis alignment showed good agreement with the experimental results.",

keywords = "Crystal orientation, High magnetic field, Spark plasma sintering, Thermoelectric",

author = "Kim, \{Dong Hwan\} and Cham Kim and Je, \{Koo Chul\} and Ha, \{Gook Hyun\} and Hoyoung Kim",

note = "Funding Information: This work was supported by the Energy Efficiency \& Resources of the Korea Institute of Energy Technology Evaluation and Planning (KETEP) grant funded by the Ministry of Knowledge Economy, Republic of Korea (No. 2007EID11P050000). The authors gratefully acknowledge Mr. Kil-Yeol Ryu and Mr. Jong-Kyu Choi (Research Institute of Industrial Science and Technology in Pohang city) for their assistance with the EBSD analysis and for valuable discussions.",

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AU - Je, Koo Chul

AU - Ha, Gook Hyun

AU - Kim, Hoyoung

N1 - Funding Information: This work was supported by the Energy Efficiency & Resources of the Korea Institute of Energy Technology Evaluation and Planning (KETEP) grant funded by the Ministry of Knowledge Economy, Republic of Korea (No. 2007EID11P050000). The authors gratefully acknowledge Mr. Kil-Yeol Ryu and Mr. Jong-Kyu Choi (Research Institute of Industrial Science and Technology in Pohang city) for their assistance with the EBSD analysis and for valuable discussions.

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N2 - We simultaneously investigated the effects of nanostructure and crystal alignment on the thermoelectric performance of polycrystalline Bi 0.5Sb1.5Te3. An appropriate experimental procedure was devised for a sequential process of slip-casting under a 6 T magnetic field for c-axis alignment and the use of a spark plasma sinter machine for sintering. Flake-shaped powders with particles less than 36 μm in diameter stacked up with c-axis alignment under a 6 T rotating magnetic field, while the same powders with particles less than 5 μm in diameter showed a random orientation with no magnetic field. The c-axis-aligned material under the magnetic field showed an increase in hole mobility along the direction perpendicular to the c-axis that resulted in a 15% decrease in the electric resistivity, while the Seebeck coefficient and thermal conductivity remained unchanged; thus the figure of merit was improved by 15%. Theoretical evaluation of the electrical resistivity according to the c-axis alignment showed good agreement with the experimental results.

AB - We simultaneously investigated the effects of nanostructure and crystal alignment on the thermoelectric performance of polycrystalline Bi 0.5Sb1.5Te3. An appropriate experimental procedure was devised for a sequential process of slip-casting under a 6 T magnetic field for c-axis alignment and the use of a spark plasma sinter machine for sintering. Flake-shaped powders with particles less than 36 μm in diameter stacked up with c-axis alignment under a 6 T rotating magnetic field, while the same powders with particles less than 5 μm in diameter showed a random orientation with no magnetic field. The c-axis-aligned material under the magnetic field showed an increase in hole mobility along the direction perpendicular to the c-axis that resulted in a 15% decrease in the electric resistivity, while the Seebeck coefficient and thermal conductivity remained unchanged; thus the figure of merit was improved by 15%. Theoretical evaluation of the electrical resistivity according to the c-axis alignment showed good agreement with the experimental results.

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