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Improving the seebeck coefficient and electrical conductivity of Fe11Ti3Al6 by substituting Fe with Cr

Improving the seebeck coefficient and electrical conductivity of Fe11Ti3Al6 by substituting Fe with Cr
Improving the seebeck coefficient and electrical conductivity of Fe11Ti3Al6 by substituting Fe with Cr
In general, any attempt to increase the Seebeck coefficient is usually accompanied by a decrease in the electrical conductivity or vice versa due to the interplay between these two parameters. This work demonstrates that a simultaneous increase in both the Seebeck coefficient and electrical conductivity can be obtained by “doping” in intermetallic alloys. A new alloy composition, Fe10Cr1Ti3Al6, was synthesized by substituting Fe with Cr in Fe11Ti3Al6 using mechanical alloying and spark plasma sintering (SPS). The thermoelectric measurements revealed that the Cr substitution led to an increase in the Seebeck coefficient from +27 µV/K in Fe11Ti3Al6 to +39 µV/K in Fe10Cr1Ti3Al6, with a corresponding increase in the electrical conductivity from 2.5 × 105 S/m to 4.7 × 105 S/m, resulting in a significant increase in the power factor. The temperature dependence of the thermoelectric properties of this new alloy was also investigated over a temperature range of 50–727°C. The result showed that a maximum power factor of 6.0 × 10−4 W/m K2 was obtained at 53°C.
ball milling, Intermetallic, powder metallurgy, spark plasma sintering, thermoelectric
0361-5235
2701-2709
Singh, Sukhwinder
16a4a7bf-54cf-4ca9-9010-7b43e28cde3d
Alemzadeh, Joseph
6f957ea5-e52e-4bb9-9098-27ea2ad254a4
Rodriguez, Guillermo Menendez
8d5cd1c6-46f3-4ee4-9b6a-7fe6539d19c3
Phillips, Matthew
b7d22a7e-bbc5-40da-866d-5c5bff51de0e
Zabek, Daniel
7281d29f-829d-4f54-89a2-ee4f48a357af
Burton, Matthew
4a0d87d4-48b8-46bb-8b4d-3b3cf754563b
Rocha, Victoria G.
a4afb1b9-d239-4acb-8e23-9620344f8b52
Min, Gao
2c855e2f-141c-4d1a-8a8a-d29ae9f8de3c
Singh, Sukhwinder
16a4a7bf-54cf-4ca9-9010-7b43e28cde3d
Alemzadeh, Joseph
6f957ea5-e52e-4bb9-9098-27ea2ad254a4
Rodriguez, Guillermo Menendez
8d5cd1c6-46f3-4ee4-9b6a-7fe6539d19c3
Phillips, Matthew
b7d22a7e-bbc5-40da-866d-5c5bff51de0e
Zabek, Daniel
7281d29f-829d-4f54-89a2-ee4f48a357af
Burton, Matthew
4a0d87d4-48b8-46bb-8b4d-3b3cf754563b
Rocha, Victoria G.
a4afb1b9-d239-4acb-8e23-9620344f8b52
Min, Gao
2c855e2f-141c-4d1a-8a8a-d29ae9f8de3c

Singh, Sukhwinder, Alemzadeh, Joseph, Rodriguez, Guillermo Menendez, Phillips, Matthew, Zabek, Daniel, Burton, Matthew, Rocha, Victoria G. and Min, Gao (2025) Improving the seebeck coefficient and electrical conductivity of Fe11Ti3Al6 by substituting Fe with Cr. Journal of Electronic Materials, 54, 2701-2709. (doi:10.1007/s11664-024-11723-4).

Record type: Article

Abstract

In general, any attempt to increase the Seebeck coefficient is usually accompanied by a decrease in the electrical conductivity or vice versa due to the interplay between these two parameters. This work demonstrates that a simultaneous increase in both the Seebeck coefficient and electrical conductivity can be obtained by “doping” in intermetallic alloys. A new alloy composition, Fe10Cr1Ti3Al6, was synthesized by substituting Fe with Cr in Fe11Ti3Al6 using mechanical alloying and spark plasma sintering (SPS). The thermoelectric measurements revealed that the Cr substitution led to an increase in the Seebeck coefficient from +27 µV/K in Fe11Ti3Al6 to +39 µV/K in Fe10Cr1Ti3Al6, with a corresponding increase in the electrical conductivity from 2.5 × 105 S/m to 4.7 × 105 S/m, resulting in a significant increase in the power factor. The temperature dependence of the thermoelectric properties of this new alloy was also investigated over a temperature range of 50–727°C. The result showed that a maximum power factor of 6.0 × 10−4 W/m K2 was obtained at 53°C.

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s11664-024-11723-4 (1) - Version of Record
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Accepted/In Press date: 27 December 2024
Published date: 10 January 2025
Keywords: ball milling, Intermetallic, powder metallurgy, spark plasma sintering, thermoelectric

Identifiers

Local EPrints ID: 500100
URI: http://eprints.soton.ac.uk/id/eprint/500100
DOI: doi:10.1007/s11664-024-11723-4
ISSN: 0361-5235
PURE UUID: 838f27d6-b134-479a-9d46-c022d842fbd8
ORCID for Daniel Zabek: ORCID iD orcid.org/0000-0001-5856-5301

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Date deposited: 15 Apr 2025 16:58
Last modified: 22 Aug 2025 02:46

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Contributors

Author: Sukhwinder Singh
Author: Joseph Alemzadeh
Author: Guillermo Menendez Rodriguez
Author: Matthew Phillips
Author: Daniel Zabek ORCID iD
Author: Matthew Burton
Author: Victoria G. Rocha
Author: Gao Min

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