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Gallium nitride nanocrystal formation in Si<inf>3</inf>N<inf>4</inf> matrix by ion synthesis
Journal
Bulletin of Materials Science
ISSN
02504707
Date Issued
2020-12-01
Author(s)
Rajbhar, Manoj Kumar
Rajamani, Saravanan
Singh, S. K.
Surodin, Sergey
Nikolichev, Dmitry
Kryukov, Ruslan
Korolev, Dmitry
Nikolskaya, Alyona
Belov, Alexey
Nezhdanov, Alexey
Mikhaylov, Alexey
Tetelbaum, David
Abstract
Synthesis of nanoparticles in insulators attracts tremendous attention due to their unique electrical and optical properties. Here, the gallium (Ga) and gallium nitride (GaN) nanoclusters have been synthesized in the silicon nitride matrix by sequential ion implantation (gallium and nitrogen ions) followed by either furnace annealing (FA) or rapid thermal annealing (RTA). The presence of Ga and GaN nanoclusters has been confirmed by Fourier-transform infrared, Raman and X-ray photoelectron spectroscopy. Thereafter, the effect of RTA and FA on the conduction of charge carriers has been studied for the fabricated devices. It is found from the current–voltage measurements that the carrier transport is controlled by the space charge limited current conduction mechanism, and the observed values of parameter m (trap density and the distribution of localized state) for the FA and RTA devices are ~2 and ~4.1, respectively. This reveals that more defects are formed in the RTA device and that FA provides better performance than RTA from the viewpoint of opto- and nano-electronic applications.