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Literature DB >> 16907317

Application of bond constraint theory to the switchable optical memory material Ge2Sb2Te5.

D A Baker¹, M A Paesler, G Lucovsky, S C Agarwal, P C Taylor.

Abstract

A new extended x-ray-absorption fine structure spectroscopy study of local bonding identifies for the first time significant concentrations of Ge-Ge bonds in amorphous Ge2Sb2Te5. The study provides a new understanding of the local molecular structure of this phase-change material. Application of bond constraint theory indicates that the amorphous phase is an ideal network structure in which the average number of constraints per atom equals the network dimensionality. Analysis within this framework imparts new and significant insights concerning the nature of the reversible optically driven amorphous-crystalline phase transition of Ge2Sb2Te5.

Year: 2006 PMID： 16907317 DOI： 10.1103/PhysRevLett.96.255501

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

6 in total

1. Pressure-induced reversible amorphization and an amorphous-amorphous transition in Ge₂Sb₂Te₅ phase-change memory material.

Authors: Zhimei Sun; Jian Zhou; Yuanchun Pan; Zhitang Song; Ho-Kwang Mao; Rajeev Ahuja
Journal: Proc Natl Acad Sci U S A Date: 2011-06-13 Impact factor: 11.205

2. Distortion-triggered loss of long-range order in solids with bonding energy hierarchy.

Authors: A V Kolobov; M Krbal; P Fons; J Tominaga; T Uruga
Journal: Nat Chem Date: 2011-03-20 Impact factor: 24.427

3. Atomic-scale study of the amorphous-to-crystalline phase transition mechanism in GeTe thin films.

Authors: R Mantovan; R Fallica; A Mokhles Gerami; T E Mølholt; C Wiemer; M Longo; H P Gunnlaugsson; K Johnston; H Masenda; D Naidoo; M Ncube; K Bharuth-Ram; M Fanciulli; H P Gislason; G Langouche; S Ólafsson; G Weyer
Journal: Sci Rep Date: 2017-08-15 Impact factor: 4.379

Application of bond constraint theory to the switchable optical memory material Ge2Sb2Te5.

1. Pressure-induced reversible amorphization and an amorphous-amorphous transition in Ge₂Sb₂Te₅ phase-change memory material.

2. Distortion-triggered loss of long-range order in solids with bonding energy hierarchy.

3. Atomic-scale study of the amorphous-to-crystalline phase transition mechanism in GeTe thin films.

4. Understanding Phase-Change Memory Alloys from a Chemical Perspective.

5. How fragility makes phase-change data storage robust: insights from ab initio simulations.

6. Competing covalent and ionic bonding in Ge-Sb-Te phase change materials.