Email this article Method for Controlling the Polarity of Gallium Nitride Layers in Epitaxial Synthesis of GaN/AlN Heterostructures on Hybrid SiC/Si Substrates
- Authors: Mizerov A.M.1, Kukushkin S.A.2, Sharofidinov S.S.3, Osipov A.V.4, Timoshnev S.N.1, Shubina K.Y.1, Berezovskaya T.N.1, Mokhov D.V.1, Buravlev A.D.1,3
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Affiliations:
- St. Petersburg National Research Academic University, Russian Academy of Sciences
- Institute of Problems of Mechanical Engineering, Russian Academy of Sciences
- Ioffe Institute
- St. Petersburg National Research University of Information Technologies, Mechanics and Optics
- Issue: Vol 61, No 12 (2019)
- Pages: 2277-2281
- Section: Semiconductors
- URL: https://journal-vniispk.ru/1063-7834/article/view/206745
- DOI: https://doi.org/10.1134/S106378341912031X
- ID: 206745
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Abstract
The effect of the inversion of polarity in gallium nitride layers from the N-polar GaN layer to the Ga-polar GaN layer was discovered during the sequential growth of GaN films on hybrid SiC/Si(111) substrates by nitrogen plasma-assisted molecular beam epitaxy and chloride–hydride vapor phase epitaxy. A new method has been developed for the formation of crack-free Ga-polar GaN/AlN heterostructures on hybrid SiC/Si(111) substrates. The method includes two stages of growing gallium nitride layers. At the first stage, the transient N-polar GaN layer is grown on the SiC/Si(111) surface by nitrogen plasma-assisted molecular beam epitaxy. At the second stage, two layers are grown on the obtained N-polar GaN layer by chloride–hydride vapor phase epitaxy, namely, the AlN layer and then the GaN layer, which at this stage grows in the Ga-polar orientation. Etching in a KOH solution affects only the N-polar GaN transition layer and leads to its complete removal. This procedure separates the main Ga-polar GaN layer from the SiC/Si(111) substrate completely. The method enables one to grow crack-free and elastically unstressed thick GaN layers and transfer them to substrates of other materials.
About the authors
A. M. Mizerov
St. Petersburg National Research Academic University, Russian Academy of Sciences
Author for correspondence.
Email: andreymizerov@rambler.ru
Russian Federation, St. Petersburg, 194021
S. A. Kukushkin
Institute of Problems of Mechanical Engineering, Russian Academy of Sciences
Email: andreymizerov@rambler.ru
Russian Federation, St. Petersburg, 199178
Sh. Sh. Sharofidinov
Ioffe Institute
Email: andreymizerov@rambler.ru
Russian Federation, St. Petersburg, 194021
A. V. Osipov
St. Petersburg National Research University of Information Technologies, Mechanics and Optics
Email: andreymizerov@rambler.ru
Russian Federation, St. Petersburg, 197101
S. N. Timoshnev
St. Petersburg National Research Academic University, Russian Academy of Sciences
Email: andreymizerov@rambler.ru
Russian Federation, St. Petersburg, 194021
K. Yu. Shubina
St. Petersburg National Research Academic University, Russian Academy of Sciences
Email: andreymizerov@rambler.ru
Russian Federation, St. Petersburg, 194021
T. N. Berezovskaya
St. Petersburg National Research Academic University, Russian Academy of Sciences
Email: andreymizerov@rambler.ru
Russian Federation, St. Petersburg, 194021
D. V. Mokhov
St. Petersburg National Research Academic University, Russian Academy of Sciences
Email: andreymizerov@rambler.ru
Russian Federation, St. Petersburg, 194021
A. D. Buravlev
St. Petersburg National Research Academic University, Russian Academy of Sciences; Ioffe Institute
Email: andreymizerov@rambler.ru
Russian Federation, St. Petersburg, 194021; St. Petersburg, 194021
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