Charged oxygen interstitials in corundum: first principles simulations

Combining supercell models and hybrid B3PW exchange‐correlation functionals, ab initio simulations on quasi‐stable configurations of interstitial $O_i^-$ ions in α‐Al2O3 (corundum) crystals and possible migration trajectories have been modelled. We have studied crystalline distortion around migratin...

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Veröffentlicht in:	Physica status solidi. C 2016-12, Vol.13 (10-12), p.932-936
Hauptverfasser:	Platonenko, Alexander, Gryaznov, Denis, Piskunov, Sergei, Zhukovskii, Yuri F., Kotomin, Eugene A.
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Sprache:	eng
Schlagworte:	Anions Barriers Cations Computer simulation Corundum defects diffusion Electronics first principles calculations Interstitials Migration oxygen interstitial
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creator	Platonenko, Alexander Gryaznov, Denis Piskunov, Sergei Zhukovskii, Yuri F. Kotomin, Eugene A.
description	Combining supercell models and hybrid B3PW exchange‐correlation functionals, ab initio simulations on quasi‐stable configurations of interstitial $O_i^-$ ions in α‐Al2O3 (corundum) crystals and possible migration trajectories have been modelled. We have studied crystalline distortion around migrating $O_i^-$ including interatomic distances and the effective atomic charges, as well as redistributions of the electronic density. Unlike neutral interstitial atom Oi studied by us previously, migrating $O_i^-$ ion does not form dumbbells with the nearest regular $O_{reg}^{q -}$ oxygen ions, due to the strong Coulomb interaction with the nearest $Al_{reg}^{q+}$ cations as well as stronger repulsion between $O_i^-$ and adjacent regular $O_{reg}^{q -}$ ions. We have also estimated the energy barrier for migration between the nearest quasistable configurations of interstitial $O_i^-$ ion. One of these configurations is an octahedron formed by six nearest $O_{reg}^{q -} $ anions in the centre of which $O_i^-$ ion is located, unlike a neutral Oi atom which prefers to migrate directly towards one of adjacent $O_{reg}^{q -} $ anions with the dumbbell formation. As the result, the barrier for $O_i^-$ ion migration in corundum has been found to be by ∼70% smaller than that of Oi atom. (© 2016 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)
doi_str_mv	10.1002/pssc.201600081
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C</title><addtitle>Phys. Status Solidi C</addtitle><description>Combining supercell models and hybrid B3PW exchange‐correlation functionals, ab initio simulations on quasi‐stable configurations of interstitial $O_i^-$ ions in α‐Al2O3 (corundum) crystals and possible migration trajectories have been modelled. We have studied crystalline distortion around migrating $O_i^-$ including interatomic distances and the effective atomic charges, as well as redistributions of the electronic density. Unlike neutral interstitial atom Oi studied by us previously, migrating $O_i^-$ ion does not form dumbbells with the nearest regular $O_{reg}^{q -}$ oxygen ions, due to the strong Coulomb interaction with the nearest $Al_{reg}^{q+}$ cations as well as stronger repulsion between $O_i^-$ and adjacent regular $O_{reg}^{q -}$ ions. We have also estimated the energy barrier for migration between the nearest quasistable configurations of interstitial $O_i^-$ ion. One of these configurations is an octahedron formed by six nearest $O_{reg}^{q -} $ anions in the centre of which $O_i^-$ ion is located, unlike a neutral Oi atom which prefers to migrate directly towards one of adjacent $O_{reg}^{q -} $ anions with the dumbbell formation. As the result, the barrier for $O_i^-$ ion migration in corundum has been found to be by ∼70% smaller than that of Oi atom. (© 2016 WILEY‐VCH Verlag GmbH & Co. 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C</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Platonenko, Alexander</au><au>Gryaznov, Denis</au><au>Piskunov, Sergei</au><au>Zhukovskii, Yuri F.</au><au>Kotomin, Eugene A.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Charged oxygen interstitials in corundum: first principles simulations</atitle><jtitle>Physica status solidi. C</jtitle><addtitle>Phys. Status Solidi C</addtitle><date>2016-12</date><risdate>2016</risdate><volume>13</volume><issue>10-12</issue><spage>932</spage><epage>936</epage><pages>932-936</pages><issn>1862-6351</issn><eissn>1610-1642</eissn><abstract>Combining supercell models and hybrid B3PW exchange‐correlation functionals, ab initio simulations on quasi‐stable configurations of interstitial $O_i^-$ ions in α‐Al2O3 (corundum) crystals and possible migration trajectories have been modelled. We have studied crystalline distortion around migrating $O_i^-$ including interatomic distances and the effective atomic charges, as well as redistributions of the electronic density. Unlike neutral interstitial atom Oi studied by us previously, migrating $O_i^-$ ion does not form dumbbells with the nearest regular $O_{reg}^{q -}$ oxygen ions, due to the strong Coulomb interaction with the nearest $Al_{reg}^{q+}$ cations as well as stronger repulsion between $O_i^-$ and adjacent regular $O_{reg}^{q -}$ ions. We have also estimated the energy barrier for migration between the nearest quasistable configurations of interstitial $O_i^-$ ion. One of these configurations is an octahedron formed by six nearest $O_{reg}^{q -} $ anions in the centre of which $O_i^-$ ion is located, unlike a neutral Oi atom which prefers to migrate directly towards one of adjacent $O_{reg}^{q -} $ anions with the dumbbell formation. As the result, the barrier for $O_i^-$ ion migration in corundum has been found to be by ∼70% smaller than that of Oi atom. (© 2016 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)</abstract><cop>Berlin</cop><pub>WILEY-VCH Verlag</pub><doi>10.1002/pssc.201600081</doi><tpages>5</tpages></addata></record>
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subjects	Anions Barriers Cations Computer simulation Corundum defects diffusion Electronics first principles calculations Interstitials Migration oxygen interstitial
title	Charged oxygen interstitials in corundum: first principles simulations
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