基于纳米硅结构的氮化硅基发光器件电致发光特性研究

林圳旭; 林泽文; 张毅; 宋超; 郭艳青; 王祥; 黄新堂; 黄锐

doi:10.7498/aps.63.037801

物理学报

基于纳米硅结构的氮化硅基发光器件电致发光特性研究

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林圳旭, 林泽文, 张毅, 宋超, 郭艳青, 王祥, 黄新堂, 黄锐. 2014: 基于纳米硅结构的氮化硅基发光器件电致发光特性研究, 物理学报, null(3): 037801. doi: 10.7498/aps.63.037801

引用本文:

Lin Zhen-Xu, Lin Ze-Wen, Zhang Yi, Song Chao, Guo Yan-Qing, Wang Xiang, Huang Xin-Tang, Huang Rui. 2014: Electroluminescence from Si nanostructure-based silicon nitride light-emitting devices, Acta Physica Sinica, null(3): 037801. doi: 10.7498/aps.63.037801

Citation:

Lin Zhen-Xu, Lin Ze-Wen, Zhang Yi, Song Chao, Guo Yan-Qing, Wang Xiang, Huang Xin-Tang, Huang Rui. 2014: Electroluminescence from Si nanostructure-based silicon nitride light-emitting devices, Acta Physica Sinica, null(3): 037801. doi: 10.7498/aps.63.037801

基于纳米硅结构的氮化硅基发光器件电致发光特性研究

华中师范大学纳米科技研究院,武汉,430079
韩山师范学院物理与电子工程系,潮州,521041
华中师范大学纳米科技研究院，武汉 430079; 韩山师范学院物理与电子工程系，潮州 521041

Electroluminescence from Si nanostructure-based silicon nitride light-emitting devices

摘要: 利用等离子体增强化学气相沉积法制备了镶嵌于氮化硅的高密度纳米硅薄膜，并以此作为发光有源层构建基于p-Si/氮化硅基发光层/AZO结构发光二极管，在室温下观察到了电致可见发光。在此基础上，在器件p-Si空穴注入层与氮化硅基发光层之间加入纳米硅薄层作为空穴阻挡层，研究器件电致发光性质，实验结果表明器件的发光强度显著增强，并且发光效率较无纳米硅阻挡层的发光器件提高了80%以上。
- 纳米硅 /
- 氮化硅 /
- 电致发光
Abstract: Dense Si nanostructures embedded in silicon nitride prepared by plasma-enhanced chemical vapor deposition (PECVD) was used as luminescence active layer to fabricate light-emitting diodes based on p-Si/SiN-based emitter/AZO structure. Visible electroluminescence from the device was observed at room temperature. It is found that the electrolu-minescence intensity of the device can be further enhanced significantly by inserting an ultrathin nanocrystalline Si layer between the p-Si substrate and SiN-based emitter as a hole barrier layer. Moreover, the electroluminescence efficiency is increased by more than 80%as compared to the decice without the nc-Si barrier layer.

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基于纳米硅结构的氮化硅基发光器件电致发光特性研究

华中师范大学纳米科技研究院,武汉,430079
韩山师范学院物理与电子工程系,潮州,521041
华中师范大学纳米科技研究院，武汉 430079; 韩山师范学院物理与电子工程系，潮州 521041

关键词:

纳米硅 /
氮化硅 /
电致发光

摘要: 利用等离子体增强化学气相沉积法制备了镶嵌于氮化硅的高密度纳米硅薄膜，并以此作为发光有源层构建基于p-Si/氮化硅基发光层/AZO结构发光二极管，在室温下观察到了电致可见发光。在此基础上，在器件p-Si空穴注入层与氮化硅基发光层之间加入纳米硅薄层作为空穴阻挡层，研究器件电致发光性质，实验结果表明器件的发光强度显著增强，并且发光效率较无纳米硅阻挡层的发光器件提高了80%以上。

English Abstract

Electroluminescence from Si nanostructure-based silicon nitride light-emitting devices

华中师范大学纳米科技研究院,武汉,430079
韩山师范学院物理与电子工程系,潮州,521041
华中师范大学纳米科技研究院，武汉 430079; 韩山师范学院物理与电子工程系，潮州 521041

Keywords:

纳米硅 /
氮化硅 /
电致发光

Abstract: Dense Si nanostructures embedded in silicon nitride prepared by plasma-enhanced chemical vapor deposition (PECVD) was used as luminescence active layer to fabricate light-emitting diodes based on p-Si/SiN-based emitter/AZO structure. Visible electroluminescence from the device was observed at room temperature. It is found that the electrolu-minescence intensity of the device can be further enhanced significantly by inserting an ultrathin nanocrystalline Si layer between the p-Si substrate and SiN-based emitter as a hole barrier layer. Moreover, the electroluminescence efficiency is increased by more than 80%as compared to the decice without the nc-Si barrier layer.

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基于纳米硅结构的氮化硅基发光器件电致发光特性研究

Electroluminescence from Si nanostructure-based silicon nitride light-emitting devices

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基于纳米硅结构的氮化硅基发光器件电致发光特性研究

English Abstract

Electroluminescence from Si nanostructure-based silicon nitride light-emitting devices

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