Influence of SiN buffer layer in GaN epilayers

“…Epitaxial lateral overgrowth (ELO) has been proven to be an effective method to reduce dislocations [4,5] . It has also been discovered that depositing an in-situ SiN x mask with partial coverage of the surface can drastically reduce the dislocation density by termination and bending of threading dislocations [6][7][8] . However, the growth time of the mask layer must be optimized or incomplete GaN coalescence will occur, resulting in pits on the epilayer and beating the purpose of introducing SiN x for dislocation reduction.…”

Improved GaN grown on Si(111) substrate using ammonia flow modulation on SiN x mask layer by MOCVD

“…Epitaxial lateral overgrowth (ELO) has been proven to be an effective method to reduce dislocations [4,5] . It has also been discovered that depositing an in-situ SiN x mask with partial coverage of the surface can drastically reduce the dislocation density by termination and bending of threading dislocations [6][7][8] . However, the growth time of the mask layer must be optimized or incomplete GaN coalescence will occur, resulting in pits on the epilayer and beating the purpose of introducing SiN x for dislocation reduction.…”

Improved GaN grown on Si(111) substrate using ammonia flow modulation on SiN x mask layer by MOCVD

“…However, such a procedure is relatively complex that inevitably results in a low production yield. Recently, it has been reported that one can reduce the defect density in nitride-based epitaxial layers using GaN-SiN as the nucleation layer [8][9][10][11][12][13][14][15]. Many nanometer-sized porous SiN layer probably serves to enhance the lateral growth, which is quite similar to that in ELO to reduce dislocation density.…”

Improvement of efficiency and ESD characteristics of ultraviolet light-emitting diodes by inserting AlGaN and SiN buffer layers

“…5. Otherwise, SiN x grown on the sapphire substrate at 500-650 1C by diluted SiH 4 gas exposure was reported to be a porous structure with many nanometer-sized holes in it [15]. Two possible bases are therefore plausible to be responsible for the effects of SiN x buffer for the crystallinity and quality improvement of the GaN top layer.…”

“…Otherwise, GaN cannot be grown as a buffer layer directly on Si substrates due to poor nucleation of GaN on Si [12]. Therefore many other kinds of buffers have previously been used, such as AlN [13], AlGaN/ AlN [14,15] and SiC [16]. Although there have been some reports on the successful growth of GaN on Si, a defect-induced broad yellow luminescence (YL) band was not easy to be removed from the photoluminescence (PL) spectra [9,15,17].…”

“…Therefore many other kinds of buffers have previously been used, such as AlN [13], AlGaN/ AlN [14,15] and SiC [16]. Although there have been some reports on the successful growth of GaN on Si, a defect-induced broad yellow luminescence (YL) band was not easy to be removed from the photoluminescence (PL) spectra [9,15,17]. On the other hand, it has recently been demonstrated that no YL was present when a Si 3 N 4 buffer was used for the GaN grown by hot wall chemical vapor deposition [18].…”

Epitaxial growth of high-quality GaN on appropriately nitridated Si substrate by metal organic chemical vapor deposition