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Combined Experimental and Periodic DFT Study of the Size Dependence of Adsorption Properties of Oxide-Supported Metal Nanoclusters: A Case of NO on Ni/Al2O3

Combined Experimental and Periodic DFT Study of the Size Dependence of Adsorption Properties of Oxide-Supported Metal Nanoclusters: A Case of NO on Ni/Al2O3

It is demonstrated by means of ultra high vacuum (UHV) surface-sensitive techniques and periodic density functional theory (DFT) calculations that the electronic and NO− adsorption properties of nanosized Ni clusters deposited onto the α-Al2O3 (0001) surface significantly depend upon the size of the...

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Principais autores: Abaev, V. T., Абаев, В. Т.
Formato: Статья
Idioma:English
Publicado em: John Wiley and Sons Ltd 2024
Assuntos:
Alumina
UHV surface science techniques
DFT theory
Molecular adsorption
Nickel
Nitric oxide
Oxide-supported metal nanoparticles
Thin films
Acesso em linha:https://dspace.ncfu.ru/handle/123456789/29253
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spelling ir-123456789-292532024-11-27T12:35:33Z Combined Experimental and Periodic DFT Study of the Size Dependence of Adsorption Properties of Oxide-Supported Metal Nanoclusters: A Case of NO on Ni/Al2O3 Abaev, V. T. Абаев, В. Т. Alumina UHV surface science techniques DFT theory Molecular adsorption Nickel Nitric oxide Oxide-supported metal nanoparticles Thin films It is demonstrated by means of ultra high vacuum (UHV) surface-sensitive techniques and periodic density functional theory (DFT) calculations that the electronic and NO− adsorption properties of nanosized Ni clusters deposited onto the α-Al2O3 (0001) surface significantly depend upon the size of the cluster. The properties of the Ni cluster of the size of 2 nm and lower are predominantly determined by the formation of the Ni/Al2O3 interface bond notably polarized towards the oxide. As a result, the metal cluster acquires a net positive charge manifested by the bond strengthening of adsorbed NO compared to the bulk Ni substrate. With the increasing size of the cluster, the Ni/Al2O3 interfacial bond depolarizes due to the growing of lateral Ni–Ni interaction. With a mean coverage of Ni on the alumina surface exceeding 0.25 equivalent monolayers, their properties in terms of adsorption behavior of NO resemble those that are characteristic for the bulk Ni substrate. Such a size dependence offers an opportunity to tune the properties of metal clusters and the metal/oxide system as a whole, for example, to achieve the required electronic and adsorption-reaction properties. 2024-11-27T12:34:47Z 2024-11-27T12:34:47Z 2024 Статья Magkoev T., Men Y., Behjatmanesh-Ardakani R., Elahifard M., Abaev V., Chalikidi P., Magkoev T., Ashkhotov O. Combined Experimental and Periodic DFT Study of the Size Dependence of Adsorption Properties of Oxide-Supported Metal Nanoclusters: A Case of NO on Ni/Al2O3 // Surface and Interface Analysis. - 2024. - 56 (12). - pp. 842 - 850. - DOI: 10.1002/sia.7350 https://dspace.ncfu.ru/handle/123456789/29253 en Surface and Interface Analysis application/pdf John Wiley and Sons Ltd
institution СКФУ
collection Репозиторий
language English
topic Alumina
UHV surface science techniques
DFT theory
Molecular adsorption
Nickel
Nitric oxide
Oxide-supported metal nanoparticles
Thin films
spellingShingle Alumina
UHV surface science techniques
DFT theory
Molecular adsorption
Nickel
Nitric oxide
Oxide-supported metal nanoparticles
Thin films
Abaev, V. T.
Абаев, В. Т.
Combined Experimental and Periodic DFT Study of the Size Dependence of Adsorption Properties of Oxide-Supported Metal Nanoclusters: A Case of NO on Ni/Al2O3
description It is demonstrated by means of ultra high vacuum (UHV) surface-sensitive techniques and periodic density functional theory (DFT) calculations that the electronic and NO− adsorption properties of nanosized Ni clusters deposited onto the α-Al2O3 (0001) surface significantly depend upon the size of the cluster. The properties of the Ni cluster of the size of 2 nm and lower are predominantly determined by the formation of the Ni/Al2O3 interface bond notably polarized towards the oxide. As a result, the metal cluster acquires a net positive charge manifested by the bond strengthening of adsorbed NO compared to the bulk Ni substrate. With the increasing size of the cluster, the Ni/Al2O3 interfacial bond depolarizes due to the growing of lateral Ni–Ni interaction. With a mean coverage of Ni on the alumina surface exceeding 0.25 equivalent monolayers, their properties in terms of adsorption behavior of NO resemble those that are characteristic for the bulk Ni substrate. Such a size dependence offers an opportunity to tune the properties of metal clusters and the metal/oxide system as a whole, for example, to achieve the required electronic and adsorption-reaction properties.
format Статья
author Abaev, V. T.
Абаев, В. Т.
author_facet Abaev, V. T.
Абаев, В. Т.
author_sort Abaev, V. T.
title Combined Experimental and Periodic DFT Study of the Size Dependence of Adsorption Properties of Oxide-Supported Metal Nanoclusters: A Case of NO on Ni/Al2O3
title_short Combined Experimental and Periodic DFT Study of the Size Dependence of Adsorption Properties of Oxide-Supported Metal Nanoclusters: A Case of NO on Ni/Al2O3
title_full Combined Experimental and Periodic DFT Study of the Size Dependence of Adsorption Properties of Oxide-Supported Metal Nanoclusters: A Case of NO on Ni/Al2O3
title_fullStr Combined Experimental and Periodic DFT Study of the Size Dependence of Adsorption Properties of Oxide-Supported Metal Nanoclusters: A Case of NO on Ni/Al2O3
title_full_unstemmed Combined Experimental and Periodic DFT Study of the Size Dependence of Adsorption Properties of Oxide-Supported Metal Nanoclusters: A Case of NO on Ni/Al2O3
title_sort combined experimental and periodic dft study of the size dependence of adsorption properties of oxide-supported metal nanoclusters: a case of no on ni/al2o3
publisher John Wiley and Sons Ltd
publishDate 2024
url https://dspace.ncfu.ru/handle/123456789/29253
work_keys_str_mv AT abaevvt combinedexperimentalandperiodicdftstudyofthesizedependenceofadsorptionpropertiesofoxidesupportedmetalnanoclustersacaseofnoonnial2o3
AT abaevvt combinedexperimentalandperiodicdftstudyofthesizedependenceofadsorptionpropertiesofoxidesupportedmetalnanoclustersacaseofnoonnial2o3
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