Large-area epitaxial growth of InAs nanowires and thin films on hexagonal boron nitride by metal organic chemical vapor deposition
Date
2023
Authors
Gopakumar Saraswathyvilasam, Aswani
Adhikari, Sonachand
Gupta, Bikesh
Balendhran, Sivacarendran
Higashitarumizu, Naoki
Tournet, Julie
Li, Li
Javey, Ali
Crozier, Kenneth
Karuturi, Siva
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Volume Title
Publisher
Institute of Physics Publishing
Abstract
Large-area epitaxial growth of III–V nanowires and thin films on van der Waals substrates is key to developing flexible optoelectronic devices. In our study, large-area InAs nanowires and planar structures are grown on hexagonal boron nitride templates using metal organic chemical vapor deposition method without any catalyst or pre-treatments. The effect of basic growth parameters on nanowire yield and thin film morphology is investigated. Under optimised growth conditions, a high nanowire density of 2.1 109 cm−2 is achieved. A novel growth strategy to achieve uniform InAs thin film on h-BN/SiO2/Si substrate is introduced. The approach involves controlling the growth process to suppress the nucleation and growth of InAs nanowires, while promoting the radial growth of nano-islands formed on the h-BN surface. A uniform polycrystalline InAs thin film is thus obtained over a large area with a dominant zinc-blende phase. The film exhibits near-band-edge emission at room temperature and a relatively high Hall mobility of 399 cm−2/(Vs). This work suggests a promising path for the direct growth of large-area, low-temperature III–V thin films on van der Waals substrates.
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Keywords
InAs, nanowires,, MOCVD, van der waals epitaxy, polycrystalline thin film
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Nanotechnology
Type
Journal article
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Open Access
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Creative Commons Attribution licence
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