Growth mechanism of InGaN quantum dots during metalorganic vapor phase epitaxy

“…Therefore InGaN grown on GaN experiences a strain which depends on the indium content. A detailed investigation on the growth mechanism of InGaN dots has been reported by Kadir et al 4. The strain due to this lattice mismatch has been exploited to grow InGaN QDs on GaN in the Stranski–Krastanov growth mode.…”

“…The typical ω /2 θ X‐ray rocking curve from (0002) reflection together with simulation is shown in Fig. 1 (please see the reference 4 for further details about the X‐ray analysis). Hence the nominal growth rate was determined and the growth time was extrapolated according to the group III partial pressure.…”

“…Indium composition and layer thickness were obtained by simulating the ω /2 θ X‐ray rocking curve assuming the InGaN layer to be fully strained. Please see the reference Kadir et al 4 for further details about the X‐ray analysis.…”

“…The piezoelectric polarization effect and recombination process of carriers are significantly affected by the shape and size of the QDs. In a previous work, we have reported a detailed investigation of the growth mechanism of self‐assembled InGaN QDs in SK growth mode via metalorganic vapor phase epitaxy (MOVPE) 4. Since these QDs are formed due to the strain arising from highly lattice mismatched systems, control of the shape and size are determined by the total strain energy of the epilayer.…”

Influence of group III and group V partial pressures on the size and density of InGaN quantum dots in MOVPE

“…Therefore InGaN grown on GaN experiences a strain which depends on the indium content. A detailed investigation on the growth mechanism of InGaN dots has been reported by Kadir et al 4. The strain due to this lattice mismatch has been exploited to grow InGaN QDs on GaN in the Stranski–Krastanov growth mode.…”

“…The typical ω /2 θ X‐ray rocking curve from (0002) reflection together with simulation is shown in Fig. 1 (please see the reference 4 for further details about the X‐ray analysis). Hence the nominal growth rate was determined and the growth time was extrapolated according to the group III partial pressure.…”

“…Indium composition and layer thickness were obtained by simulating the ω /2 θ X‐ray rocking curve assuming the InGaN layer to be fully strained. Please see the reference Kadir et al 4 for further details about the X‐ray analysis.…”

“…The piezoelectric polarization effect and recombination process of carriers are significantly affected by the shape and size of the QDs. In a previous work, we have reported a detailed investigation of the growth mechanism of self‐assembled InGaN QDs in SK growth mode via metalorganic vapor phase epitaxy (MOVPE) 4. Since these QDs are formed due to the strain arising from highly lattice mismatched systems, control of the shape and size are determined by the total strain energy of the epilayer.…”

Influence of group III and group V partial pressures on the size and density of InGaN quantum dots in MOVPE

“…QDs formed in this method have resulted in extremely low threshold currents in InAs QD LDs. 16 SK growth can also be used to synthesize InGaN QDs, but there is a lack of dimensional control, and also low dot densities (<100/lm 2 ), [17][18][19][20][21][22] that limits their efficiency performance below that of QWs. An alternative approach is to use diblock copolymer lithography and selective-area epitaxy to form InGaN QDs at achieve higher dimensional control, 23 but this approach is still limited to larger size dots.…”

Room temperature luminescence of passivated InGaN quantum dots formed by quantum-sized-controlled photoelectrochemical etching

Design and growth of GaN-based blue and green laser diodes