Impact of Lu-Substitution in Yb14–xLuxZnSb11: Thermoelectric Properties and Oxidation Studies

Justl, Andrew P.; Winston, Logan D.; Bux, Sabah K.; Kauzlarich, Susan M.

doi:10.1021/acsaem.3c01756

ACS Appl. Energy Mater.

2023

DOI: 10.1021/acsaem.3c01756

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Impact of Lu-Substitution in Yb_14–xLu_xZnSb₁₁: Thermoelectric Properties and Oxidation Studies

Andrew P. Justl,

Logan D. Winston,

Sabah K. Bux

et al.

Abstract: Yb 14 ZnSb 11 is one of the newest additions to the high-performance Yb 14 MSb 11 (M = Mn, Mg, and Zn) family of ptype high-temperature thermoelectric materials and shows promise for forming passivating oxide coatings. Work on the oxidation of rare earth (RE)-substituted Yb 14−x RE x MnSb 11 single crystals suggested that substituting late RE elements may form more stable passivation oxide coatings. Yb 14−x Lu x ZnSb 11 (x = 0.1, 0.2, 0.3, 0.4, 0.5, and 0.7) samples were synthesized, and Lu-substitution's effe… Show more

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Composition Governed Structure Evolution and Thermoelectric Properties in Eu(Li_1–2xZn_x)Sb (0< x < 0.5) Zintl Phases

Yuan,

Liu,

Liu

et al. 2024

Chem. Mater.

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In this report, a new series of Zintl phases, Eu(Li 1−2x Zn x )Sb (0 < x < 0.5), was discovered and investigated. These phases exhibit rich structural chemistry and notable thermoelectric properties. For the structures of Eu(Li 1−2x Zn x )Sb, three classes of analogues have been identified, which can be best represented by the well-known TiNiSi, LiGaGe, and ZrBeSi types, respectively. Interestingly, the structures of Eu(Li 1−2x Zn x )Sb phases are strongly dependent on the compositions varied with Li/Zn ratios. As a result, Eu(Li 1−2x Zn x )Sb features a highly complex polyanionic framework as well as inherently low thermal conductivity. In addition to the converged band structures and improved effective mass, Eu(Li 1−2x Zn x )Sb materials exhibit excellent thermoelectric performance. Demonstrated by Eu(Li 0.5 Zn 0.25 )Sb, exceptionally low thermal conductivity has been confirmed generally below 0.5 W/(m K), which led to a remarkable figure of merit (ZT) of 1.12 at 823 K. This value is about 14 times the maximum experimental ZT reported for the isotypic LiZnSb material. These results could bring new understandings on the structure-and-property correlations within the Zintl-phase-based thermoelectric materials since previously the performance of the p-type LiZnSb material was rather difficult to optimize. Besides, Eu(Li 1−2x Zn x )Sb phases established a very significant connection among the well-known TiNiSi, LiGaGe, and ZrBeSi structures, which classify three important thermoelectric Zintl systems represented by EuLiSb, LiZnSb, and EuZn 0.5 Sb.

show abstract

Composition Governed Structure Evolution and Thermoelectric Properties in Eu(Li_1–2xZn_x)Sb (0< x < 0.5) Zintl Phases

Yuan,

Liu,

Liu

et al. 2024

Chem. Mater.

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show abstract

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Impact of Lu-Substitution in Yb_14–xLu_xZnSb₁₁: Thermoelectric Properties and Oxidation Studies

Cited by 1 publication

References 23 publications

Composition Governed Structure Evolution and Thermoelectric Properties in Eu(Li_1–2xZn_x)Sb (0< x < 0.5) Zintl Phases

Composition Governed Structure Evolution and Thermoelectric Properties in Eu(Li_1–2xZn_x)Sb (0< x < 0.5) Zintl Phases

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Impact of Lu-Substitution in Yb14–xLuxZnSb11: Thermoelectric Properties and Oxidation Studies

Cited by 1 publication

References 23 publications

Composition Governed Structure Evolution and Thermoelectric Properties in Eu(Li1–2xZnx)Sb (0< x < 0.5) Zintl Phases

Composition Governed Structure Evolution and Thermoelectric Properties in Eu(Li1–2xZnx)Sb (0< x < 0.5) Zintl Phases

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Impact of Lu-Substitution in Yb_14–xLu_xZnSb₁₁: Thermoelectric Properties and Oxidation Studies

Composition Governed Structure Evolution and Thermoelectric Properties in Eu(Li_1–2xZn_x)Sb (0< x < 0.5) Zintl Phases

Composition Governed Structure Evolution and Thermoelectric Properties in Eu(Li_1–2xZn_x)Sb (0< x < 0.5) Zintl Phases