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Формування нанокристалічного кремнію в плівках аморфного кремнію, легованого оловом

Формування нанокристалічного кремнію в плівках аморфного кремнію, легованого оловом

The process of crystalline silicon phase formation in tin-doped amorphous silicon (a-SiSn) films has been studied. The inclusions of metallic tin are shown to play a key role in the crystallization of researched a-SiSn specimens with Sn contents of 1–10 at% at temperatures of 300–500 ∘C. The crystal...

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Bibliographic Details
Main Authors: Rudenko, R. M., Voitsihovska, O. O., Voitovych, V. V., Kras’ko, M. M., Kolosyuk, A. G., Povarchuk, V. Yu., Rudenko, M. P., Knorozok, L. M.
Format: Article
Language:English
Ukrainian
Published: Publishing house "Academperiodika" 2020
Subjects:
нанокристалiчний кремнiй
метало-iндукована кристалiзацiя
олово
-
nanocrystalline silicon
metal-induced crystallization
tin
Online Access:https://ujp.bitp.kiev.ua/index.php/ujp/article/view/2019570
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Summary:The process of crystalline silicon phase formation in tin-doped amorphous silicon (a-SiSn) films has been studied. The inclusions of metallic tin are shown to play a key role in the crystallization of researched a-SiSn specimens with Sn contents of 1–10 at% at temperatures of 300–500 ∘C. The crystallization process can conditionally be divided into two stages. At the first stage, the formation of metallic tin inclusions occurs in the bulk of as-precipitated films owing to the diffusion of tin atoms in the amorphous silicon matrix. At the second stage, the formation of the nanocrystalline phase of silicon occurs as a result of the motion of silicon atoms from the amorphous phase to the crystalline one through the formed metallic tin inclusions. The presence of the latter ensures the formation of silicon crystallites at a much lower temperature than the solid-phase recrystallization temperature (about 750 ∘C). A possibility for a relation to exist between the sizes of growing silicon nanocrystallites and metallic tin inclusions favoring the formation of nanocrystallites has been analyzed.

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