HIGH TEMPERATURE ANNEALING INFLUENCE ON STRUCTURE AND COMPOSITION OF a-Si/ZrO2 AND a-SiOx/ZrO2 MULTILAYERED NANOPERIODICAL STRUCTURES BY SYNCHROTRON XANES INVESTIGATIONS

HIGH TEMPERATURE ANNEALING INFLUENCE ON STRUCTURE AND COMPOSITION OF a-Si/ZrO2 AND a-SiOx/ZrO2 MULTILAYERED NANOPERIODICAL STRUCTURES BY SYNCHROTRON XANES INVESTIGATIONS

With the use of high brilliance synchrotron radiation the composition and structure of a-Si/ZrO2 and a-SiOx/ZrO2 multilayered nanoperiodical structures subjected to high temperature annealing were investigated. Each ZrO2 layers thickness was 2 nm while for a-Si or a-SiOx layers thickness was 8 nm wi...

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Main Authors: Dmitry A. Koyuda, Vladimir A. Terekhov, Alexey V. Ershov, Elena V. Parinova, Alexandra K. Pisliaruk, Irina A. Karabanova, Sergey Yu. Turishchev
Format: Article
Language:English
Published: Voronezh State University 2018-09-01
Series:Конденсированные среды и межфазные границы
Subjects:
multilayer nano periodal structures
nanocrystals
silicon
silicon oxides
electronic structure
phase composition
synchrotron radiation
XANES.
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spelling doaj-921b3719f02b45ffa90408c9d1e277872020-11-25T02:03:26ZengVoronezh State UniversityКонденсированные среды и межфазные границы1606-867X1606-867X2018-09-0120340141210.17308/kcmf.2018.20/585HIGH TEMPERATURE ANNEALING INFLUENCE ON STRUCTURE AND COMPOSITION OF a-Si/ZrO2 AND a-SiOx/ZrO2 MULTILAYERED NANOPERIODICAL STRUCTURES BY SYNCHROTRON XANES INVESTIGATIONSDmitry A. Koyuda0Vladimir A. Terekhov1Alexey V. Ershov2Elena V. Parinova3Alexandra K. Pisliaruk4Irina A. Karabanova5Sergey Yu. Turishchev6Researcher, Joint Laboratory “Electronic Structure of Solids”, Voronezh State UniversityDr. Sci. (Phys.-Math.), Full Professor, Solid State Physic and Nanostructures Department, Voronezh State UniversityCand. Sci. (Phys.–Math.), Associate Professor, Department of Physics of Semiconductors and Optoelectronics, Lobachevsky State University of Nizhni NovgorodCand. Sci. (Phys.–Math.), Researcher, Solid State Physic and Nanostructures Department, Voronezh State UniversityStudent, Solid State Physic and Nanostructures Department, Voronezh State UniversityLeading Electronic, Department of Physics of Semiconductors and Optoelectronics, Lobachevsky State University of Nizhni NovgorodDr. Sci. (Phys.- Math.), Associate Professor, Solid State Physic and Nanostructures Department, Voronezh State UniversityWith the use of high brilliance synchrotron radiation the composition and structure of a-Si/ZrO2 and a-SiOx/ZrO2 multilayered nanoperiodical structures subjected to high temperature annealing were investigated. Each ZrO2 layers thickness was 2 nm while for a-Si or a-SiOx layers thickness was 8 nm with total number of layers 34 (a-Si/ZrO2) and 43 (a-SiOx/ZrO2). Annealing was performed for 30 minutes at temperatures from 500 °С to 1100 °С. X-ray absorption near edge structure spectroscopy technique was applied for detecting information about local partial density of free electronic states in conduction band relative to K core level of silicon with probing depth of about 65 nm. This technique is very sensitive to the local surrounding of given atoms (silicon in our case). It was shown that initial (not annealed) structures of both types contained elementary silicon and different silicon suboxides with oxidation degree less than 2. Annealing in 500 °С - 900 °С temperature range resulted in elementary silicon appearance in multilayered nanoperiodical structures but without silicon nanocrystals formation. Annealing at 1100 °С led to increasing of ordering in silicon atoms relative positions. Synchrotron X-rays absorption near edge fi ne structures relative intensity distribution did not reveal spectral features that are specifi c for ZrSiO4 silicates formation. Moreover the indirect evidence of zirconium silicide ZrSi2 formation for a-Si/ZrO2 multilayered nanoperiodical structures was observed after their annealing at 1100 °С.multilayer nano periodal structuresnanocrystalssiliconsilicon oxideselectronic structurephase compositionsynchrotron radiationXANES.
collection DOAJ
language English
format Article
sources DOAJ
author Dmitry A. Koyuda
Vladimir A. Terekhov
Alexey V. Ershov
Elena V. Parinova
Alexandra K. Pisliaruk
Irina A. Karabanova
Sergey Yu. Turishchev
spellingShingle Dmitry A. Koyuda
Vladimir A. Terekhov
Alexey V. Ershov
Elena V. Parinova
Alexandra K. Pisliaruk
Irina A. Karabanova
Sergey Yu. Turishchev
HIGH TEMPERATURE ANNEALING INFLUENCE ON STRUCTURE AND COMPOSITION OF a-Si/ZrO2 AND a-SiOx/ZrO2 MULTILAYERED NANOPERIODICAL STRUCTURES BY SYNCHROTRON XANES INVESTIGATIONS
Конденсированные среды и межфазные границы
multilayer nano periodal structures
nanocrystals
silicon
silicon oxides
electronic structure
phase composition
synchrotron radiation
XANES.
author_facet Dmitry A. Koyuda
Vladimir A. Terekhov
Alexey V. Ershov
Elena V. Parinova
Alexandra K. Pisliaruk
Irina A. Karabanova
Sergey Yu. Turishchev
author_sort Dmitry A. Koyuda
title HIGH TEMPERATURE ANNEALING INFLUENCE ON STRUCTURE AND COMPOSITION OF a-Si/ZrO2 AND a-SiOx/ZrO2 MULTILAYERED NANOPERIODICAL STRUCTURES BY SYNCHROTRON XANES INVESTIGATIONS
title_short HIGH TEMPERATURE ANNEALING INFLUENCE ON STRUCTURE AND COMPOSITION OF a-Si/ZrO2 AND a-SiOx/ZrO2 MULTILAYERED NANOPERIODICAL STRUCTURES BY SYNCHROTRON XANES INVESTIGATIONS
title_full HIGH TEMPERATURE ANNEALING INFLUENCE ON STRUCTURE AND COMPOSITION OF a-Si/ZrO2 AND a-SiOx/ZrO2 MULTILAYERED NANOPERIODICAL STRUCTURES BY SYNCHROTRON XANES INVESTIGATIONS
title_fullStr HIGH TEMPERATURE ANNEALING INFLUENCE ON STRUCTURE AND COMPOSITION OF a-Si/ZrO2 AND a-SiOx/ZrO2 MULTILAYERED NANOPERIODICAL STRUCTURES BY SYNCHROTRON XANES INVESTIGATIONS
title_full_unstemmed HIGH TEMPERATURE ANNEALING INFLUENCE ON STRUCTURE AND COMPOSITION OF a-Si/ZrO2 AND a-SiOx/ZrO2 MULTILAYERED NANOPERIODICAL STRUCTURES BY SYNCHROTRON XANES INVESTIGATIONS
title_sort high temperature annealing influence on structure and composition of a-si/zro2 and a-siox/zro2 multilayered nanoperiodical structures by synchrotron xanes investigations
publisher Voronezh State University
series Конденсированные среды и межфазные границы
issn 1606-867X
1606-867X
publishDate 2018-09-01
description With the use of high brilliance synchrotron radiation the composition and structure of a-Si/ZrO2 and a-SiOx/ZrO2 multilayered nanoperiodical structures subjected to high temperature annealing were investigated. Each ZrO2 layers thickness was 2 nm while for a-Si or a-SiOx layers thickness was 8 nm with total number of layers 34 (a-Si/ZrO2) and 43 (a-SiOx/ZrO2). Annealing was performed for 30 minutes at temperatures from 500 °С to 1100 °С. X-ray absorption near edge structure spectroscopy technique was applied for detecting information about local partial density of free electronic states in conduction band relative to K core level of silicon with probing depth of about 65 nm. This technique is very sensitive to the local surrounding of given atoms (silicon in our case). It was shown that initial (not annealed) structures of both types contained elementary silicon and different silicon suboxides with oxidation degree less than 2. Annealing in 500 °С - 900 °С temperature range resulted in elementary silicon appearance in multilayered nanoperiodical structures but without silicon nanocrystals formation. Annealing at 1100 °С led to increasing of ordering in silicon atoms relative positions. Synchrotron X-rays absorption near edge fi ne structures relative intensity distribution did not reveal spectral features that are specifi c for ZrSiO4 silicates formation. Moreover the indirect evidence of zirconium silicide ZrSi2 formation for a-Si/ZrO2 multilayered nanoperiodical structures was observed after their annealing at 1100 °С.
topic multilayer nano periodal structures
nanocrystals
silicon
silicon oxides
electronic structure
phase composition
synchrotron radiation
XANES.
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