Au55, a stable glassy cluster: results of ab initio calculations

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Au55, a stable glassy cluster: results of ab initio calculations. / Vollath, Dieter; Holec, David; Fischer, Franz-Dieter.
In: Beilstein journal of nanotechnology , Vol. 8.2017, 25.10.2017, p. 2221-2229.

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@article{35567c1d8a9740278b272075ae760dda,
title = "Au55, a stable glassy cluster: results of ab initio calculations",
abstract = "Structure and properties of small nanoparticles are still under discussion. Moreover, some thermodynamic properties and the structural behavior still remain partially unknown. One of the best investigated nanoparticles is the Au55 cluster, which has been analyzed experimentally and theoretically. However, up to now, the results of these studies are still inconsistent. Consequently, we have carried out the present ab initio study of the Au55 cluster, using up-to-date computational concepts, in order to clarify these issues. Our calculations have confirmed the experimental result that the thermodynamically most stable structure is not crystalline, but it is glassy. The non-crystalline structure of this cluster was validated by comparison of the coordination numbers with those of a crystalline cluster. It was found that, in contrast to bulk materials, glass formation is connected to an energy release that is close to the melting enthalpy of bulk gold. Additionally, the surface energy of this cluster was calculated using two different theoretical approaches resulting in values close to the surface energy for bulk gold. It shall be emphasized that it is now possible to give a confidence interval for the value of the surface energy.",
author = "Dieter Vollath and David Holec and Franz-Dieter Fischer",
year = "2017",
month = oct,
day = "25",
doi = "10.3762/bjnano.8.222",
language = "English",
volume = "8.2017",
pages = "2221--2229",
journal = "Beilstein journal of nanotechnology ",
issn = "2190-4286",
publisher = "Beilstein-Institut Zur Forderung der Chemischen Wissenschaften",

}

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TY - JOUR

T1 - Au55, a stable glassy cluster

T2 - results of ab initio calculations

AU - Vollath, Dieter

AU - Holec, David

AU - Fischer, Franz-Dieter

PY - 2017/10/25

Y1 - 2017/10/25

N2 - Structure and properties of small nanoparticles are still under discussion. Moreover, some thermodynamic properties and the structural behavior still remain partially unknown. One of the best investigated nanoparticles is the Au55 cluster, which has been analyzed experimentally and theoretically. However, up to now, the results of these studies are still inconsistent. Consequently, we have carried out the present ab initio study of the Au55 cluster, using up-to-date computational concepts, in order to clarify these issues. Our calculations have confirmed the experimental result that the thermodynamically most stable structure is not crystalline, but it is glassy. The non-crystalline structure of this cluster was validated by comparison of the coordination numbers with those of a crystalline cluster. It was found that, in contrast to bulk materials, glass formation is connected to an energy release that is close to the melting enthalpy of bulk gold. Additionally, the surface energy of this cluster was calculated using two different theoretical approaches resulting in values close to the surface energy for bulk gold. It shall be emphasized that it is now possible to give a confidence interval for the value of the surface energy.

AB - Structure and properties of small nanoparticles are still under discussion. Moreover, some thermodynamic properties and the structural behavior still remain partially unknown. One of the best investigated nanoparticles is the Au55 cluster, which has been analyzed experimentally and theoretically. However, up to now, the results of these studies are still inconsistent. Consequently, we have carried out the present ab initio study of the Au55 cluster, using up-to-date computational concepts, in order to clarify these issues. Our calculations have confirmed the experimental result that the thermodynamically most stable structure is not crystalline, but it is glassy. The non-crystalline structure of this cluster was validated by comparison of the coordination numbers with those of a crystalline cluster. It was found that, in contrast to bulk materials, glass formation is connected to an energy release that is close to the melting enthalpy of bulk gold. Additionally, the surface energy of this cluster was calculated using two different theoretical approaches resulting in values close to the surface energy for bulk gold. It shall be emphasized that it is now possible to give a confidence interval for the value of the surface energy.

U2 - 10.3762/bjnano.8.222

DO - 10.3762/bjnano.8.222

M3 - Article

VL - 8.2017

SP - 2221

EP - 2229

JO - Beilstein journal of nanotechnology

JF - Beilstein journal of nanotechnology

SN - 2190-4286

ER -