High In-Plane Seebeck Coefficients of Bi–Sb–Te Alloy Thin Films with Growth Texture and Their Field-Controlled Seebeck Coefficients

Bismuth antimony telluride (Bi x Sb2–x Te3, BST) is an alloy that has widely been used over the past 5 decades for excellent p-type thermoelectric (TE) materials that operate around 300 K, for example, for electronic refrigeration and generators with other n-type TE materials, including Bi2Te3 alloy...

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Published in:Journal of physical chemistry. C 2021-02, Vol.125 (4), p.2373-2381
Main Authors: Park, No-Won, Lee, Won-Yong, Kim, Gil-Sung, Yoon, Young-Gui, Kikkawa, Takashi, Saitoh, Eiji, Lee, Sang-Kwon
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C: Energy Conversion and Storage
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cited_by cdi_FETCH-LOGICAL-a280t-6dd742ad7c30e6aadc9997a6344426f61a0b067a8f7618af44d672a9418786863
cites cdi_FETCH-LOGICAL-a280t-6dd742ad7c30e6aadc9997a6344426f61a0b067a8f7618af44d672a9418786863
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container_issue 4
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container_title Journal of physical chemistry. C
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creator Park, No-Won
Lee, Won-Yong
Kim, Gil-Sung
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Saitoh, Eiji
Lee, Sang-Kwon
description Bismuth antimony telluride (Bi x Sb2–x Te3, BST) is an alloy that has widely been used over the past 5 decades for excellent p-type thermoelectric (TE) materials that operate around 300 K, for example, for electronic refrigeration and generators with other n-type TE materials, including Bi2Te3 alloy materials. However, despite significant progress in bulk materials, there has been less progress and less detailed TE information on Seebeck coefficients in the thin-film form. Here, we report reliable in-plane Seebeck coefficients of p-type Bi0.5Sb1.5Te3 (BST) films and Bi2Te3/Bi0.5Sb1.5Te3 (BT/BST) multilayer films at 300 K using a promising measurement technique with a precisely controlled temperature difference and excellent linearity. Due to the growth texture of the films, a high in-plane Seebeck coefficient of ∼298 μV/K was achieved in 100 nm thick BST films at 300 K, which is an increase of ∼224% compared to that in 200 nm thick BT/BST multilayer films. Moreover, we demonstrate field-controlled Seebeck coefficients of p-BST films by a backside gate configuration in a field-effect transistor. Our results demonstrate the importance of providing a promising measurement technique and reliable information on the in-plane Seebeck coefficients of Bi–Sb–Te alloy thin films for further TE device applications.
doi_str_mv 10.1021/acs.jpcc.0c10926
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title High In-Plane Seebeck Coefficients of Bi–Sb–Te Alloy Thin Films with Growth Texture and Their Field-Controlled Seebeck Coefficients
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