Abstract
GaN layers on sapphire substrates were prepared by using metal organic vapor phase epitaxy (MOVPE) combined with an in-situ H2 etching process for the purpose of later self-separation of thick GaN crystals produced by hydride vapor phase epitaxy (HVPE) on such substrates. The etching process results in deep pits and long voids that formed on the surface and along the lower interface between GaN and sapphire, respectively. The pits, which were investigated by SEM analysis, can be modified in their aspect ratio and density by controlling the etching parameters. Using a proper set of in-situ etching parameters, a seed layer with internal voids can be prepared, which is suitable for HVPE overgrowth and the self-separation process. The quality of the in-situ-etched seed GaN layer and overgrown GaN crystal were characterized by X-ray diffraction (XRD) and defect selective etching (DSE). With the aid of atomic force microscopy (AFM) in tapping mode, the interface morphology of the separated GaN crystal was analyzed. The crystal quality of the separated HVPE-GaN crystal is comparable to the crystal grown on untreated GaN MOVPE-seed, which did not separate from the sapphire substrate. The introduced technique to promote the crystal separation during the HVPE process has no obvious drawback on the quality of the grown GaN crystals. Using this technique, the self-separation occurs more gently due to a weakened interface between GaN/sapphire. The conventional separation from an untreated seed by pure thermomechanical action results in higher mechanical forces on the crystal and consequently much higher risk of crystal breakage.
Highlights
Vertical GaN device architectures have attracted more attention because of their application in high-power and high-frequency electronic devices [1,2,3,4]
We investigated a new type of seed layer preparation for GaN bulk crystal growth, so that a thick GaN crystal can be grown with good crystal quality, while having a modified GaN
D was overgrown, applyinga standard process suited for the growth of thicker layers of several μ m thickness or even even a standard hydride vapor phase epitaxy (HVPE) process suited for the growth of thicker layers of several 100 μm thickness or bulk crystals
Summary
Vertical GaN device architectures have attracted more attention because of their application in high-power and high-frequency electronic devices [1,2,3,4]. GaN bulk crystals, from which the native GaN substrates are manufactured, are mostly grown by the hydride vapor phase epitaxy (HVPE) process on different kinds of substrates. Sapphire substrates are one of the candidates that are often used In this case, either the GaN crystal is grown directly on the sapphire substrate in the HVPE reactor, or a GaN epilayer on sapphire is prepared in advance in a metal organic vapor phase epitaxy (MOVPE) reactor and used as a seed for Crystals 2020, 10, 1100; doi:10.3390/cryst10121100 www.mdpi.com/journal/crystals. Crystals 2020, 10, 1100 subsequent overgrowth in the HVPE reactor. At this point, the challenge is to remove the sapphire substrate from the HVPE GaN crystal.
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