Optical Design of Enhanced Light Extraction Efficiency in Organic Light Emitting Device with an Optically Controlled Surface Plasmon Coupling

Journal of Light & Visual Environment Pub Date : 2013-12-01 DOI:10.2150/JLVE.IEIJ130000502
A. Mikami
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引用次数: 4

Abstract

The light extraction of OLED has been successfully enhanced by the combination of multi-cathode structure and high refractive index intermediate layer, which are introduced to control the surface plasmon coupling in the metal cathode and the distribution of optical energy in OLED, respectively. From the multi scale optical analysis, it was found that an approximately 70% of electromagnetic energy in the dipole emission was effectively converted to the glass and air modes. The phosphorescent green light emitting device exhibits higher light extraction by a factor of 1.6–1.7.
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光控表面等离子体耦合有机发光器件提高光提取效率的光学设计
通过引入多阴极结构和高折射率中间层,分别控制金属阴极表面等离子体耦合和OLED中的光能分布,成功地增强了OLED的光提取能力。从多尺度光学分析中发现,偶极子发射中约70%的电磁能有效地转换为玻璃和空气模式。该磷光绿光发射装置具有较高的光提取率,提取率为1.6 ~ 1.7倍。
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Journal of Light & Visual Environment
Journal of Light & Visual Environment
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