2016
DOI: 10.1021/acs.cgd.6b01396
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Analysis of Incubation Times for the Self-Induced Formation of GaN Nanowires: Influence of the Substrate on the Nucleation Mechanism

Abstract: Surprisingly long incubation times for the self-induced formation of GaN nanowires on different substrates can reach hundreds of minutes and remain a mystery in GaN crystal growth. Herein, we examine the incubation times of GaN islands that subsequently give rise to nanowires on amorphous Al x O y /Si and SiN x /Si substrates versus the temperature and gallium flux. Experimental data are obtained by in situ monitoring of the surface morphology by reflection high energy electron diffraction during plasma-assist… Show more

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Cited by 31 publications
(50 citation statements)
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References 51 publications
(113 reference statements)
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“…The value of 699 °C for the maximum temperature at which nucleation is possible is consistent with the discussion of Fig. 1(b [22]. It is seen that the incubation time for Ga droplets gives the main contribution into the total incubation time.…”
Section: Gaas Gaas Gaassupporting
confidence: 88%
See 1 more Smart Citation
“…The value of 699 °C for the maximum temperature at which nucleation is possible is consistent with the discussion of Fig. 1(b [22]. It is seen that the incubation time for Ga droplets gives the main contribution into the total incubation time.…”
Section: Gaas Gaas Gaassupporting
confidence: 88%
“…According to nucleation theory, any material k ( = k Ga and GaAs, where nucleation of GaAs NWs from Ga droplets is limited by the As flux) can start growing only if its concentration k c is larger than the equilibrium, [44]. When nucleation is difficult, corresponding to the interesting situations with long incubation times, the concentration of the metastable mother phase quickly reaches its maximum due to a balance of the incoming flux and desorption, and then slowly decreases due to nucleation (the so-called regime of incomplete condensation [22,44]). In this case, the concentration of material k at the beginning of nucleation is given by (…”
Section: Modellingmentioning
confidence: 99%
“…Such buffers effectively induce catalyst-free nucleation of GaN nanowires on sapphire 8 and GaN 9 substrates. As shown in previous studies, [10][11][12][13] AlO x buffer layers signicantly enhance the nucleation rate of GaN with respect to nitridated Si (the most common substrate for growing GaN nanowires), without loss of structural and optical properties. 10 Additionally, AlO x buffers prevent diffusion of silicon from the substrate 10 facilitating growth of GaN nanostructures at high temperatures without incorporating any impurities, 14 thus potentially leading to exceptional optical properties.…”
Section: Introductionmentioning
confidence: 52%
“…This allows us to conclude that no mixed polarity with a certainty above 99.8% (more than 400 NWs analyzed) was observed for GaN NWs grown on Si(111) substrates covered by a thin amorphous AlO y buffer layer. previous studies [34,41,71,72], AlOy buffer layers significantly enhance the nucleation rate of GaN with respect to nitridated Si without a loss of structural and optical quality [34]. Additionally, AlOy buffers prevent diffusion of silicon from the substrate [34], facilitating the growth of GaN nanostructures at high temperatures without incorporating any impurities [73], thus potentially leading to exceptional optical properties.…”
Section: Resultsmentioning
confidence: 91%