| CONDENSED MATTER: STRUCTURAL, MECHANICAL, AND THERMAL PROPERTIES |
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Dual-blue light-emitting diode based on strain-compensated InGaN-AlGaN/GaN quantum wells |
| Yan Qi-Rong (严启荣), Yan Qi-Ang (闫其昂), Shi Pei-Pei (石培培), Niu Qiao-Li (牛巧利), Li Shu-Ti (李述体), Zhang Yong (章勇) |
| Laboratory of Nanophotonic Functional Materials and Devices, Institute of Optoelectronic Materials and Technology, South China Normal University, Guangzhou 510631, China |
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Abstract Strain-compensated InGaN quantum well (QW) active region employing tensile AlGaN barrier is analyzed. Its spectral stability and efficiency droop for dual-blue light-emitting diode (LED) are improved compared with those of the conventional InGaN/GaN QW dual-blue LED based on stacking structure of two In0.18Ga0.82N/GaN QWs and two In0.12Ga0.88N/GaN QWs on the same sapphire substrate. It is found that the optimal performance is achieved when the Al composition of strain-compensated AlGaN layer is 0.12 in blue QW and 0.21 in blue-violet QW. The improvement performance can be attributed to the strain-compensated InGaN-AlGaN/GaN QW that can provide a better carrier confinement and effectively reduce leakage current.
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Received: 19 June 2012
Revised: 27 July 2012
Accepted manuscript online:
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PACS:
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61.72.uj
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(III-V and II-VI semiconductors)
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68.55.ag
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(Semiconductors)
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78.67.De
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(Quantum wells)
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85.60.Jb
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(Light-emitting devices)
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| Fund: Project supported by the National Natural Science Foundation of China (Grant No. U1174001); the Ministry of Education Scientific Research Foundation for Returned Scholars, China (Grant No. 20091001); the Scientific and Technological Plan of Guangzhou City, China (Grant No. 2010U1-D00131); and the Natural Science Foundation of Guangdong Province, China (Grant No. S2011010003400). |
Corresponding Authors:
Zhang Yong
E-mail: zycq@scnu.edu.cn
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Cite this article:
Yan Qi-Rong (严启荣), Yan Qi-Ang (闫其昂), Shi Pei-Pei (石培培), Niu Qiao-Li (牛巧利), Li Shu-Ti (李述体), Zhang Yong (章勇) Dual-blue light-emitting diode based on strain-compensated InGaN-AlGaN/GaN quantum wells 2013 Chin. Phys. B 22 026102
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