Si‐Young Bae scite author profile

We report on the thorough investigation of light emitting diodes (LEDs) made of core-shell nanorods (NRs) with InGaN/GaN quantum wells (QWs) in the outer shell, which are grown on patterned substrates by metal-organic vapor phase epitaxy. The multi-bands emission of the LEDs covers nearly the whole visible region, including UV, blue, green, and orange ranges. The intensity of each emission is strongly dependent on the current density, however the LEDs demonstrate a rather low color saturation. Based on transmission electron microscopy data and comparing them with electroluminescence and photoluminescence spectra measured at different excitation powers and temperatures, we could identify the spatial origination of each of the emission bands. We show that their wavelengths and intensities are governed by different thicknesses of the QWs grown on different crystal facets of the NRs as well as corresponding polarization-induced electric fields. Also the InGaN incorporation strongly varies along the NRs, increasing at their tips and corners, which provides the red shift of emission. With increasing the current, the different QW regions are activated successively from the NR tips to the side-walls, resulting in different LED colors. Our findings can be used as a guideline to design effectively emitting multi-color NR-LEDs.

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Growth of hexagonal boron nitride on sapphire substrate by pulsed-mode metalorganic vapor phase epitaxy

Yang

Nitta

Nagamatsu

et al. 2018

Journal of Crystal Growth

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Highly ordered catalyst-free InGaN/GaN core–shell architecture arrays with expanded active area region

et al. 2015

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Electroluminescence enhancement of (112¯2) semipolar GaN light-emitting diodes grown on miscut m-plane sapphire substrates

Bae

Lee

Kong

et al. 2011

Current Applied Physics

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Emission Characteristics of InGaN/GaN Core-Shell Nanorods Embedded in a 3D Light-Emitting Diode

et al. 2016

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We report the selective-area growth of a gallium nitride (GaN)-nanorod-based InGaN/GaN multiple-quantum-well (MQW) core-shell structure embedded in a three-dimensional (3D) light-emitting diode (LED) grown by metalorganic chemical vapor deposition (MOCVD) and its optical analysis. High-resolution transmission electron microscopy (HR-TEM) observation revealed the high quality of the GaN nanorods and the position dependence of the structural properties of the InGaN/GaN MQWs on multiple facets. The excitation and temperature dependences of photoluminescence (PL) revealed the m-plane emission behaviors of the InGaN/GaN core-shell nanorods. The electroluminescence (EL) of the InGaN/GaN core-shell-nanorod-embedded 3D LED changed color from green to blue with increasing injection current. This phenomenon was mainly due to the energy gradient and deep localization of the indium in the selectively grown InGaN/GaN core-shell MQWs on the 3D architecture.

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Developement and verification of a performance based optimal design software for wind turbine blades

Kim

Lee

et al. 2013

Renewable Energy

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The stability of graphene and boron nitride for III-nitride epitaxy and post-growth exfoliation

et al. 2021

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Si‐Young Bae

Morphology development of GaN nanowires using a pulsed-mode MOCVD growth technique

Insight into the performance of multi-color InGaN/GaN nanorod light emitting diodes

Growth of hexagonal boron nitride on sapphire substrate by pulsed-mode metalorganic vapor phase epitaxy

Highly ordered catalyst-free InGaN/GaN core–shell architecture arrays with expanded active area region

Electroluminescence enhancement of (112¯2) semipolar GaN light-emitting diodes grown on miscut m-plane sapphire substrates

Emission Characteristics of InGaN/GaN Core-Shell Nanorods Embedded in a 3D Light-Emitting Diode

Developement and verification of a performance based optimal design software for wind turbine blades

The stability of graphene and boron nitride for III-nitride epitaxy and post-growth exfoliation

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