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ЖУРНАЛЫ // Физика и техника полупроводников // Архив

Физика и техника полупроводников, 2018, том 52, выпуск 5, страница 521 (Mi phts5847)

Эта публикация цитируется в 7 статьях

XXV International Symposium ''Nanostructures: Physics and Technology'', Saint Petersburg, June 26-30, 2017
Nanostructure Technology

Nanoparticle formation in Zn$^{+}$ and O$^{+}$ ion sequentially implanted SiO$_{2}$ film

V. V. Privezentseva, A. V. Makuninb, A. A. Batrakovc, S. V. Ksenichd, A. V. Goryacheve

a Institute of Physics & Technology, Russian Academy of Sciences, 117218 Moscow, Russia
b Skobeltsyn Institute of Nuclear Physics, Lomonosov Moscow State University, 119991 Moscow, Russia
c National Research University "MPEI", 111250 Moscow, Russia
d National Research University "MISiS", 119049 Moscow, Russia
e National Research University "MIET", 124420 Zelenograd, Moscow, Russia

Аннотация: The $^{64}$Zn$^+$ and $^{16}$O$^+$ ions were implanted in SiO$_2$ film on Si substrate with next parameters: the implant dose was 5.0 $\cdot$ 10$^{16}$ cm$^{-2}$, for Zn$^+$ ions the energy was 50 keV and for O$^+$ ions the energy was 16 keV. Than the samples were subjected to isochronally during 1h annealing in N$_2$ atmosphere in temperature range 400–600$^\circ$C and than in Ar atmosphere in temperature range from 700 up to 1000$^\circ$C with a step of 100$^\circ$C. After annealing the samples surface is structured and its roughness increases due to nanoparticle formation in subsurface layer. In as implanted and in annealed samples on its surface and in its body the Zn-contained nanoparticles with a size about 100 nm were formed. These nanoparticles consist presumably from Zn phase after implantation and from ZnO phase after annealing.

Язык публикации: английский


 Англоязычная версия: Semiconductors, 2018, 52:5, 645–650

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