Internal quantum efficiency of highly-efficient InxGa1−xN-based near-ultraviolet light-emitting diodes

Watanabe, Satoshi; Yamada, Noriko; Nagashima, Masakazu; Ueki, Yusuke; Sasaki, Chiharu; Yamada, Yoichi; Taguchi, Tsunemasa; Tadatomo, Kazuyuki; Okagawa, Hiroaki; Kudo, Hiromitsu

doi:10.1063/1.1633672

Cited by 295 publications

(199 citation statements)

References 6 publications

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“…Moreover, in these two cross-sectional TEM images [ Fig. 3(b) and 3(d)], the g vectors of samples A and B were both g= [11][12][13][14][15][16][17][18][19][20]. The edge-type dislocations were also identified in these two images, which were marked by red circles.…”

Section: -3mentioning

confidence: 87%

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Improved performance of GaN based light emitting diodes with ex-situ sputtered AlN nucleation layers

Chen

2016

AIP Advances

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Section: -3mentioning

confidence: 87%

“…19 The strain distribution of the thin film structure was investigated by measuring depth resolved Raman spectra. 20 The excitation source was a 532 nm laser light and the scattered light was collected by a 100x, NA0.7 objective lens.…”

Section: -3mentioning

confidence: 99%

Improved performance of GaN based light emitting diodes with ex-situ sputtered AlN nucleation layers

Chen

2016

AIP Advances

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“…Under the assumption that non-radiative recombinations are inactivated at cryogenic temperatures, one can retrieve the IQE from the temperature dependence of integrated PL intensity I. 26 The IQE is defined by normalizing the integrated PL intensity to 1 at 20 K, i.e., assuming the IQE to be 100 %. Thus, the IQE at room temperature will be defined FIG.…”

Section: Temperature Dependent Plmentioning

confidence: 99%

Internal quantum efficiency enhancement of GaInN/GaN quantum-well structures using Ag nanoparticles

et al. 2015

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We report internal quantum efficiency enhancement of thin p-GaN green quantum-well structure using self-assembled Ag nanoparticles. Temperature dependent photoluminescence measurements are conducted to determine the internal quantum efficiency. The impact of excitation power density on the enhancement factor is investigated. We obtain an internal quantum efficiency enhancement by a factor of 2.3 at 756 W/cm2, and a factor of 8.1 at 1 W/cm2. A Purcell enhancement up to a factor of 26 is estimated by fitting the experimental results to a theoretical model for the efficiency enhancement factor.

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“…As described above, the TDDs were reduced by one order of magnitude for the LEDs with Si-HDL, resulting in much fewer non-radiative recombinations, thus the enhanced IQE. A general approach to evaluate the IQE of LEDs is to compare the integrated PL intensities obtained at low and room temperatures [27]. Fig.…”

Section: Resultsmentioning

confidence: 99%

Improved Output Power of InGaN-Based Ultraviolet LEDs Using a Heavily Si-Doped GaN Insertion Layer Technique

Chiu

Lin

et al. 2012

IEEE J. Quantum Electron.

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Abstract-In this paper, a high quality ultraviolet lightemitting diodes (UV-LEDs) at 375 nm was developed using a heavy Si-doping technique with metal organic chemical vapor deposition. By using high-resolution X-ray diffraction, the full width at half-maximum of the rocking curve shows that the GaN film inserting a heavily Si-doped GaN layer (Si-HDL) had high crystalline quality. From the transmission electron microscopy image, the threading dislocation density was decreased after inserting a Si-HDL between undoped and n-doped GaN layers by nanoscale epitaxial lateral overgrowth. As a result, a much smaller reverse current and a higher light output were achieved. The improvement of light output at an injection current of 20 mA was enhanced by 40%. Therefore, we can use an in-situ nano pattern without complex photolithography and etching process and improve the internal quantum efficiency of UV-LEDs.Index Terms-Internal quantum efficiency, metal-organic chemical vapor deposition, nanoscale epitaxial lateral overgrowth, ultraviolet light emitting diodes.

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Internal quantum efficiency of highly-efficient InxGa1−xN-based near-ultraviolet light-emitting diodes

Cited by 295 publications

References 6 publications

Improved performance of GaN based light emitting diodes with ex-situ sputtered AlN nucleation layers

Improved performance of GaN based light emitting diodes with ex-situ sputtered AlN nucleation layers

Internal quantum efficiency enhancement of GaInN/GaN quantum-well structures using Ag nanoparticles

Improved Output Power of InGaN-Based Ultraviolet LEDs Using a Heavily Si-Doped GaN Insertion Layer Technique

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