Indium nitride (InN): A review on growth, characterization, and properties
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In this paper, the authors reviewed the development of indium nitride (InN) semiconductors from its evolution to the present day and discussed the most popular growth techniques, metalorganic vapor phase epitaxy and molecular beam epitaxy.Abstract:
During the last few years the interest in the indium nitride (InN) semiconductor has been remarkable. There have been significant improvements in the growth of InN films. High quality single crystalline InN film with two-dimensional growth and high growth rate are now routinely obtained. The background carrier concentration and Hall mobility have also improved. Observation of strong photoluminescence near the band edge is reported very recently, leading to conflicts concerning the exact band gap of InN. Attempts have also been made on the deposition of InN based heterostructures for the fabrication of InN based electronic devices. Preliminary evidence of two-dimensional electron gas accumulation in the InN and studies on InN-based field-effect transistor structure are reported. In this article, the work accomplished in the InN research, from its evolution to till now, is reviewed. The In containing alloys or other nitrides (AlGaInN, GaN,AlN) are not discussed here. We mainly concentrate on the growth, characterization, and recent developments in InN research. The most popular growth techniques, metalorganic vapor phase epitaxy and molecular beam epitaxy, are discussed in detail with their recent progress. Important phenomena in the epitaxialgrowth of InN as well as the problems remaining for future study are also discussed.read more
Citations
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Carrier concentration and surface electron accumulation in indium nitride layers grown by high pressure chemical vapor deposition
TL;DR: In this article, high-resolution electron energy loss spectroscopy (HREELS) and room temperature infrared reflection measurements were used to study the electronic and structural properties of InN layer grown by high pressure chemical vapor deposition.
Journal ArticleDOI
Ammonothermal synthesis of aluminum nitride crystals on group III-nitride templates
TL;DR: In this paper, the ammonothermal technique was used to synthesize polycrystalline aluminum nitride (AlN) crystals at temperatures between 525°C and 550°C, and the growth mechanism was found to be reversegradient soluble, requiring the placement of the GaN and AlN seeds at a higher temperature than the aluminum metal source.
Journal ArticleDOI
Study on the thermal stability of InN by in-situ laser reflectance system
TL;DR: In this article, the thermal stability of InN in the growth environment in metalorganic chemical vapor deposition was systematically investigated in situ by laser reflectance system and ex situ by morphology characterization, X-ray diffraction and Xray photoelectron spectroscopy.
Journal ArticleDOI
How Indium Nitride Senses Water
Vedran Jovic,Vedran Jovic,Simon Moser,Søren Ulstrup,Dana Goodacre,Emmanouil Dimakis,Roland J. Koch,Georgios Katsoukis,Luca Moreschini,Sung-Kwan Mo,Chris Jozwiak,Aaron Bostwick,Eli Rotenberg,Theodore D. Moustakas,Kevin E. Smith,Kevin E. Smith +15 more
TL;DR: The intuitive model provides a novel route toward understanding the water sensing mechanism in InN and, more generally, for understanding sensing material systems beyond InN.
Journal ArticleDOI
Carrier transport in InxGa1−xN thin films grown by modified activated reactive evaporation
S. R. Meher,R. V. Muniswami Naidu,Kuyyadi P. Biju,Aryasomayajula Subrahmanyam,Mahaveer K. Jain +4 more
TL;DR: In this article, the temperature dependent carrier transport properties of InxGa1−xN thin films in the entire composition range grown by modified activated reactive evaporation were investigated and a transition from metallic to semiconducting type resistivity was observed for indium rich films.
References
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Journal ArticleDOI
GaN, AlN, and InN: A review
S. Strite,Hadis Morkoç +1 more
TL;DR: The status of research on both wurtzite and zinc-blende GaN, AlN, and InN and their alloys including exciting recent results is reviewed in this paper.
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InGaN-Based Multi-Quantum-Well-Structure Laser Diodes.
Shuji Nakamura,Masayuki Senoh,Shin–ichi Nagahama,Naruhito Iwasa,Takao Yamada,Toshio Matsushita,Hiroyuki Kiyoku,Yasunobu Sugimoto +7 more
TL;DR: In this article, the InGaN multi-quantum-well (MQW) structure was used for laser diodes, which produced 215mW at a forward current of 2.3
Journal ArticleDOI
Growth and applications of Group III-nitrides
TL;DR: In this article, the chemical and thermal stability of epitaxial nitride films is discussed in relation to the problems of deposition processes and the advantages for applications in high-power and high-temperature devices.
Journal ArticleDOI
Unusual properties of the fundamental band gap of InN
Junqiao Wu,Wladek Walukiewicz,Kin Man Yu,Joel W. Ager,Eugene E. Haller,Hai Lu,William J. Schaff,Yoshiki Saito,Yasushi Nanishi +8 more
TL;DR: The optical properties of wurtzite-structured InN grown on sapphire substrates by molecular-beam epitaxy have been characterized by optical absorption, photoluminescence, and photomodulated reflectance techniques as discussed by the authors.
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III–nitrides: Growth, characterization, and properties
TL;DR: In this article, the splitting of the valence band by crystal field and spin-orbit interaction has been calculated and measured, and the measured values agree with the calculated values and the effects of strain on the splitting and optical properties have been studied in detail.