Atom probe tomography advances chalcogenide phase‐change and thermoelectric materials
Abstract: Main-group chalcogenides show outstanding performance for phase-change data storage and thermoelectric energy conversion applications. A common denominator for these different property requirements is ascribed to the metavalent bonding (MVB) mechanism. Atom probe tomography (APT) provides a unique way to distinguish MVB from other bonding mechanisms by determining the bond-breaking behavior. Specifically, an unusually high probability to dislodge several fragments upon one successful laser pulse (probability of multiple events [PME]) is found in metavalently bonded crystalline phase-change and thermoelectric materials. In contrast, amorphous phase-change materials and poor thermoelectrics usually show lower PME values. This indicates that the large optical and electrical contrast between the crystalline and amorphous chalcogenides is attributed to a transition of chemical bonding. A strong correlation between high thermoelectric performance and large PME is also established. Besides, APT can investigate structural defects on the subnanometer scale. These characteristics reveal the interdiffusion of elements in interfacial phase-change materials and revisit its switching mechanism. The complex role of structural defects such as grain boundaries in tuning the thermoelectric properties can also be unraveled by investigating the local composition and bonding mechanism at defects. This review demonstrates that APT is a powerful technique for designing phase-change and thermoelectric materials
- Standort
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Deutsche Nationalbibliothek Frankfurt am Main
- Umfang
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Online-Ressource
- Ausgabe
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online first
- Sprache
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Englisch
- Anmerkungen
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Physica status solidi. A. - (2023) , 2300425, ISSN: 1862-6319
- Ereignis
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Veröffentlichung
- (wo)
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Freiburg
- (wer)
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Universität
- (wann)
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2024
- Urheber
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Yu, Yuan
Cojocaru-Mirédin, Oana
Wuttig, Matthias
- DOI
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10.1002/pssa.202300425
- URN
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urn:nbn:de:bsz:25-freidok-2542965
- Rechteinformation
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Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Letzte Aktualisierung
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25.03.2025, 13:44 MEZ
Datenpartner
Deutsche Nationalbibliothek. Bei Fragen zum Objekt wenden Sie sich bitte an den Datenpartner.
Beteiligte
- Yu, Yuan
- Cojocaru-Mirédin, Oana
- Wuttig, Matthias
- Universität
Entstanden
- 2024
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