Defect-related luminescence of Si/SiO2 layers

L. Khomenkova; N. Korsunska; T. Torchynska; V. Yukhimchuk; B. Jumayev; A. Many; Y. Goldstein; E. Savir; J. Jedrzejewski

doi:10.1088/0953-8984/14/48/371

Defect-related luminescence of Si/SiO₂ layers

L. Khomenkova^*, N. Korsunska, T. Torchynska, V. Yukhimchuk, B. Jumayev, A. Many, Y. Goldstein, E. Savir, J. Jedrzejewski

^*Corresponding author for this work

Racah Institute of Physics

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

34 Scopus citations

Abstract

Photoluminescence (PL), photoluminescence excitation (PLE), and Raman spectra of Si-SiO_x layers were measured as a function of Si content. Samples were prepared by co-sputtering of Si and SiO₂ and post-annealing. The average size of Si nanoparticles was estimated from Raman measurements. It was shown that, in general, the PL spectra consist of two bands with maxima in the 'red' and 'green' spectral ranges. The 'red' PL band is complex and contains two (IR and red (R)) components. The shift of the peak position of the IR component from 1.38 to 1.54 eV correlates with the decrease of the Si nanoparticle size from 5 to 2.7 nm. It was shown that this PL component could be ascribed to carrier recombination in silicon nanoparticles. The R component of the 'red' band as well as the 'green' band have similar dependences of the peak positions and intensities on the Si content and can be ascribed to defect-related luminescence. It was concluded that the light absorption in silicon nanocrystallites plays the main role in PLE process. Hot-carrier participation in the excitation of defect-related bands was deduced.

Original language	English
Pages (from-to)	13217-13221
Number of pages	5
Journal	Journal of Physics Condensed Matter
Volume	14
Issue number	48
DOIs	https://doi.org/10.1088/0953-8984/14/48/371
State	Published - 16 Dec 2002

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title = "Defect-related luminescence of Si/SiO2 layers",

abstract = "Photoluminescence (PL), photoluminescence excitation (PLE), and Raman spectra of Si-SiOx layers were measured as a function of Si content. Samples were prepared by co-sputtering of Si and SiO2 and post-annealing. The average size of Si nanoparticles was estimated from Raman measurements. It was shown that, in general, the PL spectra consist of two bands with maxima in the 'red' and 'green' spectral ranges. The 'red' PL band is complex and contains two (IR and red (R)) components. The shift of the peak position of the IR component from 1.38 to 1.54 eV correlates with the decrease of the Si nanoparticle size from 5 to 2.7 nm. It was shown that this PL component could be ascribed to carrier recombination in silicon nanoparticles. The R component of the 'red' band as well as the 'green' band have similar dependences of the peak positions and intensities on the Si content and can be ascribed to defect-related luminescence. It was concluded that the light absorption in silicon nanocrystallites plays the main role in PLE process. Hot-carrier participation in the excitation of defect-related bands was deduced.",

author = "L. Khomenkova and N. Korsunska and T. Torchynska and V. Yukhimchuk and B. Jumayev and A. Many and Y. Goldstein and E. Savir and J. Jedrzejewski",

year = "2002",

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doi = "10.1088/0953-8984/14/48/371",

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T1 - Defect-related luminescence of Si/SiO2 layers

AU - Khomenkova, L.

AU - Korsunska, N.

AU - Torchynska, T.

AU - Yukhimchuk, V.

AU - Jumayev, B.

AU - Many, A.

AU - Goldstein, Y.

AU - Savir, E.

AU - Jedrzejewski, J.

PY - 2002/12/16

Y1 - 2002/12/16

N2 - Photoluminescence (PL), photoluminescence excitation (PLE), and Raman spectra of Si-SiOx layers were measured as a function of Si content. Samples were prepared by co-sputtering of Si and SiO2 and post-annealing. The average size of Si nanoparticles was estimated from Raman measurements. It was shown that, in general, the PL spectra consist of two bands with maxima in the 'red' and 'green' spectral ranges. The 'red' PL band is complex and contains two (IR and red (R)) components. The shift of the peak position of the IR component from 1.38 to 1.54 eV correlates with the decrease of the Si nanoparticle size from 5 to 2.7 nm. It was shown that this PL component could be ascribed to carrier recombination in silicon nanoparticles. The R component of the 'red' band as well as the 'green' band have similar dependences of the peak positions and intensities on the Si content and can be ascribed to defect-related luminescence. It was concluded that the light absorption in silicon nanocrystallites plays the main role in PLE process. Hot-carrier participation in the excitation of defect-related bands was deduced.

AB - Photoluminescence (PL), photoluminescence excitation (PLE), and Raman spectra of Si-SiOx layers were measured as a function of Si content. Samples were prepared by co-sputtering of Si and SiO2 and post-annealing. The average size of Si nanoparticles was estimated from Raman measurements. It was shown that, in general, the PL spectra consist of two bands with maxima in the 'red' and 'green' spectral ranges. The 'red' PL band is complex and contains two (IR and red (R)) components. The shift of the peak position of the IR component from 1.38 to 1.54 eV correlates with the decrease of the Si nanoparticle size from 5 to 2.7 nm. It was shown that this PL component could be ascribed to carrier recombination in silicon nanoparticles. The R component of the 'red' band as well as the 'green' band have similar dependences of the peak positions and intensities on the Si content and can be ascribed to defect-related luminescence. It was concluded that the light absorption in silicon nanocrystallites plays the main role in PLE process. Hot-carrier participation in the excitation of defect-related bands was deduced.

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Defect-related luminescence of Si/SiO₂ layers

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