The di-interstitial in silicon: Electronic properties and interactions with oxygen and carbon impurity atoms

V. E. Gusakov; S.B. Lastovskii; L. I. Murin; E.A. Tolkacheva; L. I. Khirunenko; M. G. Sosnin; A.V. Duvanskii; Vladimir Markevich; Matthew Halsall; Anthony Peaker; I Kolevatov; H.M. Ayedh; E. V. Monakhov; B. G. Svensson

doi:10.1002/pssa.201700261

The di-interstitial in silicon: Electronic properties and interactions with oxygen and carbon impurity atoms

V. E. Gusakov, S.B. Lastovskii, L. I. Murin, E.A. Tolkacheva, L. I. Khirunenko, M. G. Sosnin, A.V. Duvanskii, Vladimir Markevich, Matthew Halsall, Anthony Peaker, I Kolevatov, H.M. Ayedh, E. V. Monakhov, B. G. Svensson

Research output: Contribution to journal › Article › peer-review

Abstract

New experimental and theoretical results on the silicon di-interstitial (I2) and its
interactions with oxygen and carbon impurity atoms in Si crystals are reported. The electronic structure calculations indicate that I2 has an acceptor and a donor level in the gap, which are close to the conduction and valence band edges, respectively. Experimental results, which support the theoretically predicted high mobility of I2, are discussed.
It is argued that mobile I2 can be trapped by oxygen and carbon impurities. The I2O center has a donor level at Ev+0.09 eV. Two absorption bands at 936 and 929 cm 1 are assigned to local vibrational modes of the I2O defect in neutral and positively charged states, respectively. The binding energy of I2O relative to the separated I2 and Powered by Editorial Manager® and ProduXion Manager® from Aries Systems Corporation Oi species is 0.22 eV. Disappearance of the I2O complex upon thermal annealing occurs in the temperature range 50-100oC and is accompanied by the introduction of an-other defect, which gives rise to two hole emission signals from energy levels at Ev+0.54 and Ev+0.45 eV. It is argued that these levels are related to a complex consisting of interstitial carbon and interstitial silicon atoms (CiI). The stable configurations of the CiI pair have been found.

Original language	English
Journal	Physica Status Solidi. A: Applications and Materials Science
DOIs	https://doi.org/10.1002/pssa.201700261
Publication status	Published - 29 May 2017

Keywords

Silicon
Di-interstitial
energy levels
oxygen-related defected
carbon related defects

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/pssa.201700261Licence: CC BY

Supersilicon PV: Extending the limits of material performance
Halsall, M. (PI), Hamilton, B. (CoI) & Peaker, A. (CoI)
1/09/15 → 30/11/18
Project: Research

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Gusakov, V. E., Lastovskii, S. B., Murin, L. I., Tolkacheva, E. A., Khirunenko, L. I., Sosnin, M. G., Duvanskii, A. V., Markevich, V., Halsall, M., Peaker, A., Kolevatov, I., Ayedh, H. M., Monakhov, E. V., & Svensson, B. G. (2017). The di-interstitial in silicon: Electronic properties and interactions with oxygen and carbon impurity atoms. Physica Status Solidi. A: Applications and Materials Science . https://doi.org/10.1002/pssa.201700261

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title = "The di-interstitial in silicon: Electronic properties and interactions with oxygen and carbon impurity atoms",

abstract = "New experimental and theoretical results on the silicon di-interstitial (I2) and itsinteractions with oxygen and carbon impurity atoms in Si crystals are reported. The electronic structure calculations indicate that I2 has an acceptor and a donor level in the gap, which are close to the conduction and valence band edges, respectively. Experimental results, which support the theoretically predicted high mobility of I2, are discussed.It is argued that mobile I2 can be trapped by oxygen and carbon impurities. The I2O center has a donor level at Ev+0.09 eV. Two absorption bands at 936 and 929 cm 1 are assigned to local vibrational modes of the I2O defect in neutral and positively charged states, respectively. The binding energy of I2O relative to the separated I2 and Powered by Editorial Manager{\textregistered} and ProduXion Manager{\textregistered} from Aries Systems Corporation Oi species is 0.22 eV. Disappearance of the I2O complex upon thermal annealing occurs in the temperature range 50-100oC and is accompanied by the introduction of an-other defect, which gives rise to two hole emission signals from energy levels at Ev+0.54 and Ev+0.45 eV. It is argued that these levels are related to a complex consisting of interstitial carbon and interstitial silicon atoms (CiI). The stable configurations of the CiI pair have been found.",

keywords = "Silicon, Di-interstitial, energy levels, oxygen-related defected, carbon related defects",

author = "Gusakov, {V. E.} and S.B. Lastovskii and Murin, {L. I.} and E.A. Tolkacheva and Khirunenko, {L. I.} and Sosnin, {M. G.} and A.V. Duvanskii and Vladimir Markevich and Matthew Halsall and Anthony Peaker and I Kolevatov and H.M. Ayedh and Monakhov, {E. V.} and Svensson, {B. G.}",

year = "2017",

month = may,

day = "29",

doi = "10.1002/pssa.201700261",

language = "English",

journal = "Physica Status Solidi. A: Applications and Materials Science ",

issn = "1862-6300",

publisher = "John Wiley & Sons Ltd",

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Gusakov, VE, Lastovskii, SB, Murin, LI, Tolkacheva, EA, Khirunenko, LI, Sosnin, MG, Duvanskii, AV, Markevich, V, Halsall, M , Peaker, A, Kolevatov, I, Ayedh, HM, Monakhov, EV & Svensson, BG 2017, 'The di-interstitial in silicon: Electronic properties and interactions with oxygen and carbon impurity atoms', Physica Status Solidi. A: Applications and Materials Science . https://doi.org/10.1002/pssa.201700261

TY - JOUR

T1 - The di-interstitial in silicon: Electronic properties and interactions with oxygen and carbon impurity atoms

AU - Gusakov, V. E.

AU - Lastovskii, S.B.

AU - Murin, L. I.

AU - Tolkacheva, E.A.

AU - Khirunenko, L. I.

AU - Sosnin, M. G.

AU - Duvanskii, A.V.

AU - Markevich, Vladimir

AU - Halsall, Matthew

AU - Peaker, Anthony

AU - Kolevatov, I

AU - Ayedh, H.M.

AU - Monakhov, E. V.

AU - Svensson, B. G.

PY - 2017/5/29

Y1 - 2017/5/29

N2 - New experimental and theoretical results on the silicon di-interstitial (I2) and itsinteractions with oxygen and carbon impurity atoms in Si crystals are reported. The electronic structure calculations indicate that I2 has an acceptor and a donor level in the gap, which are close to the conduction and valence band edges, respectively. Experimental results, which support the theoretically predicted high mobility of I2, are discussed.It is argued that mobile I2 can be trapped by oxygen and carbon impurities. The I2O center has a donor level at Ev+0.09 eV. Two absorption bands at 936 and 929 cm 1 are assigned to local vibrational modes of the I2O defect in neutral and positively charged states, respectively. The binding energy of I2O relative to the separated I2 and Powered by Editorial Manager® and ProduXion Manager® from Aries Systems Corporation Oi species is 0.22 eV. Disappearance of the I2O complex upon thermal annealing occurs in the temperature range 50-100oC and is accompanied by the introduction of an-other defect, which gives rise to two hole emission signals from energy levels at Ev+0.54 and Ev+0.45 eV. It is argued that these levels are related to a complex consisting of interstitial carbon and interstitial silicon atoms (CiI). The stable configurations of the CiI pair have been found.

AB - New experimental and theoretical results on the silicon di-interstitial (I2) and itsinteractions with oxygen and carbon impurity atoms in Si crystals are reported. The electronic structure calculations indicate that I2 has an acceptor and a donor level in the gap, which are close to the conduction and valence band edges, respectively. Experimental results, which support the theoretically predicted high mobility of I2, are discussed.It is argued that mobile I2 can be trapped by oxygen and carbon impurities. The I2O center has a donor level at Ev+0.09 eV. Two absorption bands at 936 and 929 cm 1 are assigned to local vibrational modes of the I2O defect in neutral and positively charged states, respectively. The binding energy of I2O relative to the separated I2 and Powered by Editorial Manager® and ProduXion Manager® from Aries Systems Corporation Oi species is 0.22 eV. Disappearance of the I2O complex upon thermal annealing occurs in the temperature range 50-100oC and is accompanied by the introduction of an-other defect, which gives rise to two hole emission signals from energy levels at Ev+0.54 and Ev+0.45 eV. It is argued that these levels are related to a complex consisting of interstitial carbon and interstitial silicon atoms (CiI). The stable configurations of the CiI pair have been found.

KW - Silicon

KW - Di-interstitial

KW - energy levels

KW - oxygen-related defected

KW - carbon related defects

U2 - 10.1002/pssa.201700261

DO - 10.1002/pssa.201700261

M3 - Article

SN - 1862-6300

JO - Physica Status Solidi. A: Applications and Materials Science

JF - Physica Status Solidi. A: Applications and Materials Science

ER -

The di-interstitial in silicon: Electronic properties and interactions with oxygen and carbon impurity atoms

Abstract

Keywords

UN SDGs

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Supersilicon PV: Extending the limits of material performance

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