Scanning proximal microscopy study of the thin layers of silicon carbide-aluminum nitride solid solution manufactured by fast sublimation epitaxy

Scanning proximal microscopy study of the thin layers of silicon carbide-aluminum nitride solid solution manufactured by fast sublimation epitaxy

The objective of the study is a growth of SiC/(SiC)1−x(AlN)x structures by fast sublimation epitaxy of the polycrystalline source of (SiC)1−x(AlN)x and their characterisation by proximal scanning electron microscopy and atomic force microscopy. For that purpose optimal conditions of sublimation...

Full description

Bibliographic Details
Main Authors: Tománek P., Bilalov B., Korostylev E., Dallaeva D.
Format: Article
Language:English
Published: EDP Sciences 2013-05-01
Series:EPJ Web of Conferences
Online Access:http://dx.doi.org/10.1051/epjconf/20134800002
id doaj-5ba8d456881f4fd2bfa358a809ee9864
record_format Article
spelling doaj-5ba8d456881f4fd2bfa358a809ee98642021-08-02T09:44:32ZengEDP SciencesEPJ Web of Conferences2100-014X2013-05-01480000210.1051/epjconf/20134800002Scanning proximal microscopy study of the thin layers of silicon carbide-aluminum nitride solid solution manufactured by fast sublimation epitaxyTománek P.Bilalov B.Korostylev E.Dallaeva D.The objective of the study is a growth of SiC/(SiC)1−x(AlN)x structures by fast sublimation epitaxy of the polycrystalline source of (SiC)1−x(AlN)x and their characterisation by proximal scanning electron microscopy and atomic force microscopy. For that purpose optimal conditions of sublimation process have been defined. Manufactured structures could be used as substrates for wide-band-gap semiconductor devices on the basis of nitrides, including gallium nitride, aluminum nitride and their alloys, as well as for the production of transistors with high mobility of electrons and also for creation of blue and ultraviolet light emitters (light-emitted diodes and laser diodes). The result of analysis shows that increasing of the growth temperature up to 2300 K allows carry out sublimation epitaxy of thin layers of aluminum nitride and its solid solution. http://dx.doi.org/10.1051/epjconf/20134800002
collection DOAJ
language English
format Article
sources DOAJ
author Tománek P.
Bilalov B.
Korostylev E.
Dallaeva D.
spellingShingle Tománek P.
Bilalov B.
Korostylev E.
Dallaeva D.
Scanning proximal microscopy study of the thin layers of silicon carbide-aluminum nitride solid solution manufactured by fast sublimation epitaxy
EPJ Web of Conferences
author_facet Tománek P.
Bilalov B.
Korostylev E.
Dallaeva D.
author_sort Tománek P.
title Scanning proximal microscopy study of the thin layers of silicon carbide-aluminum nitride solid solution manufactured by fast sublimation epitaxy
title_short Scanning proximal microscopy study of the thin layers of silicon carbide-aluminum nitride solid solution manufactured by fast sublimation epitaxy
title_full Scanning proximal microscopy study of the thin layers of silicon carbide-aluminum nitride solid solution manufactured by fast sublimation epitaxy
title_fullStr Scanning proximal microscopy study of the thin layers of silicon carbide-aluminum nitride solid solution manufactured by fast sublimation epitaxy
title_full_unstemmed Scanning proximal microscopy study of the thin layers of silicon carbide-aluminum nitride solid solution manufactured by fast sublimation epitaxy
title_sort scanning proximal microscopy study of the thin layers of silicon carbide-aluminum nitride solid solution manufactured by fast sublimation epitaxy
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2013-05-01
description The objective of the study is a growth of SiC/(SiC)1−x(AlN)x structures by fast sublimation epitaxy of the polycrystalline source of (SiC)1−x(AlN)x and their characterisation by proximal scanning electron microscopy and atomic force microscopy. For that purpose optimal conditions of sublimation process have been defined. Manufactured structures could be used as substrates for wide-band-gap semiconductor devices on the basis of nitrides, including gallium nitride, aluminum nitride and their alloys, as well as for the production of transistors with high mobility of electrons and also for creation of blue and ultraviolet light emitters (light-emitted diodes and laser diodes). The result of analysis shows that increasing of the growth temperature up to 2300 K allows carry out sublimation epitaxy of thin layers of aluminum nitride and its solid solution.
url http://dx.doi.org/10.1051/epjconf/20134800002
work_keys_str_mv AT tomanekp scanningproximalmicroscopystudyofthethinlayersofsiliconcarbidealuminumnitridesolidsolutionmanufacturedbyfastsublimationepitaxy
AT bilalovb scanningproximalmicroscopystudyofthethinlayersofsiliconcarbidealuminumnitridesolidsolutionmanufacturedbyfastsublimationepitaxy
AT korostyleve scanningproximalmicroscopystudyofthethinlayersofsiliconcarbidealuminumnitridesolidsolutionmanufacturedbyfastsublimationepitaxy
AT dallaevad scanningproximalmicroscopystudyofthethinlayersofsiliconcarbidealuminumnitridesolidsolutionmanufacturedbyfastsublimationepitaxy
_version_ 1721234559158190080

Similar Items