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RESEARCH PRODUCT
Structure and dynamics in amorphous tellurium and Te-n clusters: A density functional study
Jaakko AkolaJaakko AkolaJaakko AkolaRobert O. JonesRobert O. Jonessubject
Materials scienceta114chemistry.chemical_elementTrigonal crystal systemCondensed Matter PhysicsBranching (polymer chemistry)Molecular physicsElectronic Optical and Magnetic MaterialsAmorphous solidJMolecular dynamicschemistryddc:530Telluriumdescription
Density functional/molecular dynamics simulations have been performed on amorphous tellurium (a melt-quenched sample of 343 atoms at 300 K) and on Te clusters with up to 16 atoms. The former extend our calculations on liquid Te at 560, 625, 722, and 970 K [Phys. Rev. B 81, 094202 (2010)]. We discuss trends in structures (including those of other group-16 elements), electronic densities of states, and vibration frequencies. Chain structures are common in S and Se, but the chains in amorphous Te are short, and branching sites with threefold-coordinated atoms are common. The energy difference between two- and threefold local coordination depends sensitively on the exchange-correlation functional used. Cavities are characteristic of amorphous Te (37$%$ of total volume), but are absent in crystalline (trigonal) Te.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2012-04-09 | Physical Review B |