Revealing the Intrinsic Electronic Structure of 3D Half‐Heusler Thermoelectric Materials by Angle‐Resolved Photoemission Spectroscopy
Abstract: Accurate determination of the intrinsic electronic structure of thermoelectric materials is a prerequisite for utilizing an electronic band engineering strategy to improve their thermoelectric performance. Herein, with high‐resolution angle‐resolved photoemission spectroscopy (ARPES), the intrinsic electronic structure of the 3D half‐Heusler thermoelectric material ZrNiSn is revealed. An unexpectedly large intrinsic bandgap is directly observed by ARPES and is further confirmed by electrical and optical measurements and first‐principles calculations. Moreover, a large anisotropic conduction band with an anisotropic factor of 6 is identified by ARPES and attributed to be one of the most important reasons leading to the high thermoelectric performance of ZrNiSn. These successful findings rely on the grown high‐quality single crystals, which have fewer Ni interstitial defects and negligible in‐gap states on the electronic structure. This work demonstrates a realistic paradigm to investigate the electronic structure of 3D solid materials by using ARPES and provides new insights into the intrinsic electronic structure of the half‐Heusler system benefiting further optimization of thermoelectric performance.
- Location
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Deutsche Nationalbibliothek Frankfurt am Main
- Extent
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Online-Ressource
- Language
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Englisch
- Bibliographic citation
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Revealing the Intrinsic Electronic Structure of 3D Half‐Heusler Thermoelectric Materials by Angle‐Resolved Photoemission Spectroscopy ; volume:7 ; number:1 ; year:2020 ; extent:8
Advanced science ; 7, Heft 1 (2020) (gesamt 8)
- Creator
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Fu, Chenguang
Yao, Mengyu
Chen, Xi
Maulana, Lucky Zaehir
Li, Xin
Yang, Jiong
Imasato, Kazuki
Zhu, Fengfeng
Li, Guowei
Auffermann, Gudrun
Burkhardt, Ulrich
Schnelle, Walter
Zhou, Jianshi
Zhu, Tiejun
Zhao, Xinbing
Shi, Ming
Dressel, Martin
Pronin, Artem V.
Snyder, G. Jeffrey
Felser-Wenz, Claudia
- DOI
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10.1002/advs.201902409
- URN
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urn:nbn:de:101:1-2022062411210381001400
- Rights
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Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
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15.08.2025, 7:38 AM CEST
Data provider
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Associated
- Fu, Chenguang
- Yao, Mengyu
- Chen, Xi
- Maulana, Lucky Zaehir
- Li, Xin
- Yang, Jiong
- Imasato, Kazuki
- Zhu, Fengfeng
- Li, Guowei
- Auffermann, Gudrun
- Burkhardt, Ulrich
- Schnelle, Walter
- Zhou, Jianshi
- Zhu, Tiejun
- Zhao, Xinbing
- Shi, Ming
- Dressel, Martin
- Pronin, Artem V.
- Snyder, G. Jeffrey
- Felser-Wenz, Claudia
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Bericht über die konstituierende Sitzung der Arbeitsgruppe "Unfallchirurgische Laserapplikationen und ihre biologischen und medizinischen Nebenwirkungen" am 29. Oktober 1990 im Laser-Laboratorium Göttingen
Kleine Bausteine für große Aufgaben
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AC conductivity of deformed germanium single crystals at T : = 4.2 K
Optical studies of topological semimetals in magnetic fields
High pressure dielectric studies on hybrid crystals : perovskites and beryl
Spectroscopic investigations of kagome - honeycomb quantum magnets
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Untersuchungen des Magnetotransports mittels Mikrowellen in organischen Leitern und Supraleitern
Hochfrequenzmessungen an niedrigdimensionalen organischen Leitern
Spin charge separation in quasi one-dimensional organic conductors
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Bericht über die konstituierende Sitzung der Arbeitsgruppe "Unfallchirurgische Laserapplikationen und ihre biologischen und medizinischen Nebenwirkungen" am 29. Oktober 1990 im Laser-Laboratorium Göttingen
Kleine Bausteine für große Aufgaben
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AC conductivity of deformed germanium single crystals at T : = 4.2 K
Optical studies of topological semimetals in magnetic fields
High pressure dielectric studies on hybrid crystals : perovskites and beryl
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