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- Title
The role of vacancies and local distortions in the design of new phase-change materials.
- Authors
Wuttig, Matthias; Lüsebrink, Daniel; Wamwangi, Daniel; Wełnic, Wojciech; Gilleßen, Michael; Dronskowski, Richard
- Abstract
Phase-change materials are of tremendous technological importance ranging from optical data storage to electronic memories. Despite this interest, many fundamental properties of phase-change materials, such as the role of vacancies, remain poorly understood. ‘GeSbTe’-based phase-change materials contain vacancy concentrations around 10% in their metastable crystalline structure. By using density-functional theory, the origin of these vacancies has been clarified and we show that the most stable crystalline phases with rocksalt-like structures are characterized by large vacancy concentrations and local distortions. The ease by which vacancies are formed is explained by the need to annihilate energetically unfavourable antibonding Ge–Te and Sb–Te interactions in the highest occupied bands. Understanding how the interplay between vacancies and local distortions lowers the total energy helps to design novel phase-change materials as evidenced by new experimental data.
- Subjects
PHASE transitions; ELECTRIC distortion; SEMICONDUCTORS; SEMICONDUCTOR doping; THERMODYNAMICS; CRYSTALLIZATION
- Publication
Nature Materials, 2007, Vol 6, Issue 2, p122
- ISSN
1476-1122
- Publication type
Article
- DOI
10.1038/nmat1807