Wavelength tunable InGaN/GaN nano-ring LEDs via nano-sphere lithography

Sheng Wen Wang; Kou Bin Hong; Yu Lin Tsai; Chu Hsiang Teng; An Jye Tzou; You Chen Chu; Po-Tsung Lee; Pei Cheng Ku; Chien-Chung Lin; Hao-Chung Kuo

doi:10.1038/srep42962

Wavelength tunable InGaN/GaN nano-ring LEDs via nano-sphere lithography

Sheng Wen Wang, Kou Bin Hong, Yu Lin Tsai, Chu Hsiang Teng, An Jye Tzou, You Chen Chu, Po-Tsung Lee, Pei Cheng Ku, Chien-Chung Lin^*, Hao-Chung Kuo

^*此作品的通信作者

研究成果: Article › 同行評審

41 引文斯高帕斯（Scopus）

摘要

In this research, nano-ring light-emitting diodes (NRLEDs) with different wall width (120 nm, 80 nm and 40 nm) were fabricated by specialized nano-sphere lithography technology. Through the thinned wall, the effective bandgaps of nano-ring LEDs can be precisely tuned by reducing the strain inside the active region. Photoluminescence (PL) and time-resolved PL measurements indicated the lattice-mismatch induced strain inside the active region was relaxed when the wall width is reduced. Through the simulation, we can understand the strain distribution of active region inside NRLEDs. The simulation results not only revealed the exact distribution of strain but also predicted the trend of wavelength-shifted behavior of NRLEDs. Finally, the NRLEDs devices with four-color emission on the same wafer were demonstrated.

原文	English
文章編號	42962
期刊	Scientific reports
卷	7
DOIs	https://doi.org/10.1038/srep42962
出版狀態	Published - 3 3月 2017

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10.1038/srep42962

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title = "Wavelength tunable InGaN/GaN nano-ring LEDs via nano-sphere lithography",

abstract = "In this research, nano-ring light-emitting diodes (NRLEDs) with different wall width (120 nm, 80 nm and 40 nm) were fabricated by specialized nano-sphere lithography technology. Through the thinned wall, the effective bandgaps of nano-ring LEDs can be precisely tuned by reducing the strain inside the active region. Photoluminescence (PL) and time-resolved PL measurements indicated the lattice-mismatch induced strain inside the active region was relaxed when the wall width is reduced. Through the simulation, we can understand the strain distribution of active region inside NRLEDs. The simulation results not only revealed the exact distribution of strain but also predicted the trend of wavelength-shifted behavior of NRLEDs. Finally, the NRLEDs devices with four-color emission on the same wafer were demonstrated.",

author = "Wang, {Sheng Wen} and Hong, {Kou Bin} and Tsai, {Yu Lin} and Teng, {Chu Hsiang} and Tzou, {An Jye} and Chu, {You Chen} and Po-Tsung Lee and Ku, {Pei Cheng} and Chien-Chung Lin and Hao-Chung Kuo",

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T1 - Wavelength tunable InGaN/GaN nano-ring LEDs via nano-sphere lithography

AU - Wang, Sheng Wen

AU - Hong, Kou Bin

AU - Tsai, Yu Lin

AU - Teng, Chu Hsiang

AU - Tzou, An Jye

AU - Chu, You Chen

AU - Lee, Po-Tsung

AU - Ku, Pei Cheng

AU - Lin, Chien-Chung

AU - Kuo, Hao-Chung

PY - 2017/3/3

Y1 - 2017/3/3

N2 - In this research, nano-ring light-emitting diodes (NRLEDs) with different wall width (120 nm, 80 nm and 40 nm) were fabricated by specialized nano-sphere lithography technology. Through the thinned wall, the effective bandgaps of nano-ring LEDs can be precisely tuned by reducing the strain inside the active region. Photoluminescence (PL) and time-resolved PL measurements indicated the lattice-mismatch induced strain inside the active region was relaxed when the wall width is reduced. Through the simulation, we can understand the strain distribution of active region inside NRLEDs. The simulation results not only revealed the exact distribution of strain but also predicted the trend of wavelength-shifted behavior of NRLEDs. Finally, the NRLEDs devices with four-color emission on the same wafer were demonstrated.

AB - In this research, nano-ring light-emitting diodes (NRLEDs) with different wall width (120 nm, 80 nm and 40 nm) were fabricated by specialized nano-sphere lithography technology. Through the thinned wall, the effective bandgaps of nano-ring LEDs can be precisely tuned by reducing the strain inside the active region. Photoluminescence (PL) and time-resolved PL measurements indicated the lattice-mismatch induced strain inside the active region was relaxed when the wall width is reduced. Through the simulation, we can understand the strain distribution of active region inside NRLEDs. The simulation results not only revealed the exact distribution of strain but also predicted the trend of wavelength-shifted behavior of NRLEDs. Finally, the NRLEDs devices with four-color emission on the same wafer were demonstrated.

UR - http://www.scopus.com/inward/record.url?scp=85014689745&partnerID=8YFLogxK

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SN - 2045-2322

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JF - Scientific reports

M1 - 42962

ER -

Wavelength tunable InGaN/GaN nano-ring LEDs via nano-sphere lithography

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