Screening strategy for developing thermoelectric interface materials

Liangjun Xie; Li Yin; Yuan Yu; Guyang Peng; Shaowei Song; Pingjun Ying; Songting Cai; Yuxin Sun; Wenjing Shi; Hao Wu; Nuo Qu; Fengkai Guo; Wei Cai; Haijun Wu; Qian Zhang; Kornelius Nielsch; Zhifeng Ren; Zihang Liu; Jiehe Sui

doi:10.1126/SCIENCE.ADG8392

Screening strategy for developing thermoelectric interface materials

Liangjun Xie
, Li Yin
, Yuan Yu
, Guyang Peng
, Shaowei Song
, Pingjun Ying
, Songting Cai
, Yuxin Sun
, Wenjing Shi
, Hao Wu
, Nuo Qu
, Fengkai Guo
, Wei Cai
, Haijun Wu
, Qian Zhang
, Kornelius Nielsch
, Zhifeng Ren
, Zihang Liu
, Jiehe Sui

材料科学与工程学院

Harbin Institute of Technology
Harbin Institute of Technology Shenzhen
RWTH Aachen University
Xi'an Jiaotong University
University of Houston
Leibniz Institute for Solid State and Materials Research Dresden
Northwestern University

科研成果: 期刊稿件 › 文章 › 同行评审

208 引用（Scopus）

摘要

Thermoelectric interface materials (TEiMs) are essential to the development of thermoelectric generators. Common TEiMs use pure metals or binary alloys but have performance stability issues. Conventional selection of TEiMs generally relies on trial-and-error experimentation. We developed a TEiM screening strategy that is based on phase diagram predictions by density functional theory calculations. By combining the phase diagram with electrical resistivity and melting points of potential reaction products, we discovered that the semimetal MgCuSb is a reliable TEiM for high-performance MgAgSb. The MgCuSb/MgAgSb junction exhibits low interfacial contact resistivity (r_c <1 microhm square centimeter) even after annealing at 553 kelvin for 16 days. The fabricated two-pair MgAgSb/ Mg_3.2Bi_1.5Sb_0.5 module demonstrated a high conversion efficiency of 9.25% under a 300 kelvin temperature gradient. We performed an international round-robin testing of module performance to confirm the measurement reliability. The strategy can be applied to other thermoelectric materials, filling a vital gap in the development of thermoelectric modules.

源语言	英语
页（从-至）	921-929
页数	9
期刊	Science
卷	382
期	6673
DOI	https://doi.org/10.1126/SCIENCE.ADG8392
出版状态	已出版 - 2023

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10.1126/SCIENCE.ADG8392

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abstract = "Thermoelectric interface materials (TEiMs) are essential to the development of thermoelectric generators. Common TEiMs use pure metals or binary alloys but have performance stability issues. Conventional selection of TEiMs generally relies on trial-and-error experimentation. We developed a TEiM screening strategy that is based on phase diagram predictions by density functional theory calculations. By combining the phase diagram with electrical resistivity and melting points of potential reaction products, we discovered that the semimetal MgCuSb is a reliable TEiM for high-performance MgAgSb. The MgCuSb/MgAgSb junction exhibits low interfacial contact resistivity (rc <1 microhm square centimeter) even after annealing at 553 kelvin for 16 days. The fabricated two-pair MgAgSb/ Mg3.2Bi1.5Sb0.5 module demonstrated a high conversion efficiency of 9.25\% under a 300 kelvin temperature gradient. We performed an international round-robin testing of module performance to confirm the measurement reliability. The strategy can be applied to other thermoelectric materials, filling a vital gap in the development of thermoelectric modules.",

author = "Liangjun Xie and Li Yin and Yuan Yu and Guyang Peng and Shaowei Song and Pingjun Ying and Songting Cai and Yuxin Sun and Wenjing Shi and Hao Wu and Nuo Qu and Fengkai Guo and Wei Cai and Haijun Wu and Qian Zhang and Kornelius Nielsch and Zhifeng Ren and Zihang Liu and Jiehe Sui",

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doi = "10.1126/SCIENCE.ADG8392",

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T1 - Screening strategy for developing thermoelectric interface materials

AU - Xie, Liangjun

AU - Yin, Li

AU - Yu, Yuan

AU - Peng, Guyang

AU - Song, Shaowei

AU - Ying, Pingjun

AU - Cai, Songting

AU - Sun, Yuxin

AU - Shi, Wenjing

AU - Wu, Hao

AU - Qu, Nuo

AU - Guo, Fengkai

AU - Cai, Wei

AU - Wu, Haijun

AU - Zhang, Qian

AU - Nielsch, Kornelius

AU - Ren, Zhifeng

AU - Liu, Zihang

AU - Sui, Jiehe

PY - 2023

Y1 - 2023

N2 - Thermoelectric interface materials (TEiMs) are essential to the development of thermoelectric generators. Common TEiMs use pure metals or binary alloys but have performance stability issues. Conventional selection of TEiMs generally relies on trial-and-error experimentation. We developed a TEiM screening strategy that is based on phase diagram predictions by density functional theory calculations. By combining the phase diagram with electrical resistivity and melting points of potential reaction products, we discovered that the semimetal MgCuSb is a reliable TEiM for high-performance MgAgSb. The MgCuSb/MgAgSb junction exhibits low interfacial contact resistivity (rc <1 microhm square centimeter) even after annealing at 553 kelvin for 16 days. The fabricated two-pair MgAgSb/ Mg3.2Bi1.5Sb0.5 module demonstrated a high conversion efficiency of 9.25% under a 300 kelvin temperature gradient. We performed an international round-robin testing of module performance to confirm the measurement reliability. The strategy can be applied to other thermoelectric materials, filling a vital gap in the development of thermoelectric modules.

AB - Thermoelectric interface materials (TEiMs) are essential to the development of thermoelectric generators. Common TEiMs use pure metals or binary alloys but have performance stability issues. Conventional selection of TEiMs generally relies on trial-and-error experimentation. We developed a TEiM screening strategy that is based on phase diagram predictions by density functional theory calculations. By combining the phase diagram with electrical resistivity and melting points of potential reaction products, we discovered that the semimetal MgCuSb is a reliable TEiM for high-performance MgAgSb. The MgCuSb/MgAgSb junction exhibits low interfacial contact resistivity (rc <1 microhm square centimeter) even after annealing at 553 kelvin for 16 days. The fabricated two-pair MgAgSb/ Mg3.2Bi1.5Sb0.5 module demonstrated a high conversion efficiency of 9.25% under a 300 kelvin temperature gradient. We performed an international round-robin testing of module performance to confirm the measurement reliability. The strategy can be applied to other thermoelectric materials, filling a vital gap in the development of thermoelectric modules.

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DO - 10.1126/SCIENCE.ADG8392

M3 - 文章

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SN - 0036-8075

VL - 382

SP - 921

EP - 929

JO - Science

JF - Science

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ER -

Screening strategy for developing thermoelectric interface materials

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