Specific features of the hydride vapor-phase epitaxy of nitride materials on a silicon substrate

Specific features of the growth of the GaN/AlN/Si heterocomposite in which layers of Group-III element nitrides are grown on a silicon substrate by hydride vapor-phase epitaxy are studied. The effect of the temperature at which the AlN buffer layer is grown on diffusion processes at the heterointerf...

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Veröffentlicht in:	Semiconductors (Woodbury, N.Y.) N.Y.), 2014-11, Vol.48 (11), p.1535-1538
Hauptverfasser:	Mynbaeva, M. G., Golovatenko, A. A., Pechnikov, A. I., Lavrent’ev, A. A., Mynbaev, K. D., Nikolaev, V. I.
Format:	Artikel
Sprache:	eng
Schlagworte:	Aluminum compounds Epitaxy Fabrication Gallium nitrate Magnetic Materials Magnetism Nitrides Physics Physics and Astronomy Silicon Testing of Materials and Structures Treatment
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container_title	Semiconductors (Woodbury, N.Y.)
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creator	Mynbaeva, M. G. Golovatenko, A. A. Pechnikov, A. I. Lavrent’ev, A. A. Mynbaev, K. D. Nikolaev, V. I.
description	Specific features of the growth of the GaN/AlN/Si heterocomposite in which layers of Group-III element nitrides are grown on a silicon substrate by hydride vapor-phase epitaxy are studied. The effect of the temperature at which the AlN buffer layer is grown on diffusion processes at the heterointerfaces and on the quality of the epitaxial layers being grown is considered. It is shown that, with the epitaxial technique used, the buffer layer should be grown at high temperatures (1080°C) because the thickness of the component-mixing region is minimized in this case and abrupt interfaces are formed in the GaN/AlN/Si heterocomposite. The double-stage growth of gallium nitride on the high-temperature AlN buffer layer with a thickness of 300–400 nm makes it possible to obtain GaN layers with thicknesses of up to 0.3 μm without crack formation.
doi_str_mv	10.1134/S1063782614110189
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subjects	Aluminum compounds Epitaxy Fabrication Gallium nitrate Magnetic Materials Magnetism Nitrides Physics Physics and Astronomy Silicon Testing of Materials and Structures Treatment
title	Specific features of the hydride vapor-phase epitaxy of nitride materials on a silicon substrate
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