Yuta Konno scite author profile

We demonstrated the self-organization of high-density GaN nanocolumns on multilayer graphene (MLG)/SiO2 covered with a thin AlN buffer layer by RF-plasma-assisted molecular beam epitaxy. MLG/SiO2 substrates were prepared by the transfer of CVD graphene onto thermally oxidized SiO2/Si [100] substrates. Employing the MLG with an AlN buffer layer enabled the self-organization of high-density and vertically aligned nanocolumns. Transmission electron microscopy observation revealed that no threading dislocations, stacking faults, or twinning defects were included in the self-organized nanocolumns. The photoluminescence (PL) peak intensities of the self-organized GaN nanocolumns were 2.0-2.6 times higher than those of a GaN substrate grown by hydride vapor phase epitaxy. Moreover, no yellow luminescence or ZB-phase GaN emission was observed from the nanocolumns. An InGaN/GaN MQW and p-type GaN were integrated into GaN nanocolumns grown on MLG, displaying a single-peak PL emission at a wavelength of 533 nm. Thus, high-density nitride p-i-n nanocolumns were fabricated on SiO2/Si using the transferred MLG interlayer, indicating the possibility of developing visible nanocolumn LEDs on graphene/SiO2.

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Experimental study on flammability limits of electrolyte solvents in lithium-ion batteries using a wick combustion method

Guo

Hase

Ozaki

et al. 2019

Experimental Thermal and Fluid Science

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Growth study of self-assembled GaN nanocolumns on silica glass by plasma assisted molecular beam epitaxy

Mulyo

Konno

Nilsen

et al. 2017

Journal of Crystal Growth

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We demonstrate GaN nanocolumn growth on fused silica glass by plasma-assisted molecular beam epitaxy. The effect of the substrate temperature, Ga flux and N 2 flow rate on the structural and optical properties are studied. At optimum growth conditions, GaN nanocolumns are vertically aligned and well separated with an average diameter, height and density of 72 nm, 1.2 μm and 1.6 × 10 9 cm −2, respectively. The nanocolumns exhibit wurtzite crystal structure with no threading dislocations, stacking faults or twinning and grow in the [0 0 0 1] direction. At the interface adjacent to the glass, there is a few atom layers thick intermediate phase with ABC stacking order (zinc blende). Photoluminescence measurements evidence intense and narrow excitonic emissions, along with the absence of any defect-related zinc blende and yellow luminescence emission.

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Downward flame spreading over electric wire under various oxygen concentrations

Konno

Hashimoto

Fujita

2019

Proceedings of the Combustion Institute

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Effect of insulation melting and dripping on opposed flame spread over laboratory simulated electrical wires

Kobayashi

Konno

Huang

et al. 2018

Fire Safety Journal

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Yuta Konno

Self-organization of dislocation-free, high-density, vertically aligned GaN nanocolumns involving InGaN quantum wells on graphene/SiO₂covered with a thin AlN buffer layer

Experimental study on flammability limits of electrolyte solvents in lithium-ion batteries using a wick combustion method

Growth study of self-assembled GaN nanocolumns on silica glass by plasma assisted molecular beam epitaxy

Downward flame spreading over electric wire under various oxygen concentrations

Effect of insulation melting and dripping on opposed flame spread over laboratory simulated electrical wires

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About

Yuta Konno

Self-organization of dislocation-free, high-density, vertically aligned GaN nanocolumns involving InGaN quantum wells on graphene/SiO2covered with a thin AlN buffer layer

Experimental study on flammability limits of electrolyte solvents in lithium-ion batteries using a wick combustion method

Growth study of self-assembled GaN nanocolumns on silica glass by plasma assisted molecular beam epitaxy

Downward flame spreading over electric wire under various oxygen concentrations

Effect of insulation melting and dripping on opposed flame spread over laboratory simulated electrical wires

Contact Info

Product

Resources

About

Self-organization of dislocation-free, high-density, vertically aligned GaN nanocolumns involving InGaN quantum wells on graphene/SiO₂covered with a thin AlN buffer layer