Characterization of a-plane InGaN light-emitting diodes with a SiNx interlayer grown on a patterned sapphire substrate by metal-organic chemical vapor deposition

Characterization of a-plane InGaN light-emitting diodes with a SiNx interlayer grown on a patterned sapphire substrate by metal-organic chemical vapor deposition

Nonpolar, a-plane InGaN light-emitting diodes (LEDs) were grown on a hemispherical r-plane patterned sapphire substrate (HPSS) by the in situ deposition of SiNx masks and on a planar sapphire substrate by metalorganic chemical deposition (MOCVD). The use of the SiNx interlayer together with HPSS res...

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Veröffentlicht in:Japanese Journal of Applied Physics 2014-11, Vol.53 (11)
Hauptverfasser: Yoo, Geunho, Min, Daehong, Lee, Kyseung, Jang, Jongjin, Moon, Seunghwan, Chae, Sooryong, Kim, Jaehwan, Nam, Okhyun
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container_issue 11
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container_title Japanese Journal of Applied Physics
container_volume 53
creator Yoo, Geunho
Min, Daehong
Lee, Kyseung
Jang, Jongjin
Moon, Seunghwan
Chae, Sooryong
Kim, Jaehwan
Nam, Okhyun
description Nonpolar, a-plane InGaN light-emitting diodes (LEDs) were grown on a hemispherical r-plane patterned sapphire substrate (HPSS) by the in situ deposition of SiNx masks and on a planar sapphire substrate by metalorganic chemical deposition (MOCVD). The use of the SiNx interlayer together with HPSS resulted in a reduced density of defects, such as basal plane stacking faults (BSFs) and partial dislocations (PDs) in the GaN epilayers, as compared with the use of GaN on a conventional planar substrate. The optical power of the InGaN LEDs with the SiNx layer and HPSS was approximately 2.5- and 10-fold higher than those of LEDs on SiNx and on a planar substrate at a current of 100 mA, respectively.
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J. Appl. Phys</addtitle><date>2014-11-01</date><risdate>2014</risdate><volume>53</volume><issue>11</issue><issn>0021-4922</issn><eissn>1347-4065</eissn><coden>JJAPB6</coden><abstract>Nonpolar, a-plane InGaN light-emitting diodes (LEDs) were grown on a hemispherical r-plane patterned sapphire substrate (HPSS) by the in situ deposition of SiNx masks and on a planar sapphire substrate by metalorganic chemical deposition (MOCVD). The use of the SiNx interlayer together with HPSS resulted in a reduced density of defects, such as basal plane stacking faults (BSFs) and partial dislocations (PDs) in the GaN epilayers, as compared with the use of GaN on a conventional planar substrate. 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title Characterization of a-plane InGaN light-emitting diodes with a SiNx interlayer grown on a patterned sapphire substrate by metal-organic chemical vapor deposition
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