Improved out-coupling efficiency from a green microcavity OLED with a narrow band emission source

Tyler Fleetham; Jeremy Ecton; Guijie Li; Jian Li

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Improved out-coupling efficiency from a green microcavity OLED with a narrow band emission source

机译：具有窄带发射源的绿色微腔OLED的改进的外耦合效率

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A highly efficient green microcavity organic light emitting diode was developed using a tetradentate cydometalated platinum complex, PtNIN, with an intrinsically narrow emission spectral band (FWHM = 18 nm). Devices employing the narrow band emitter in MOLEDs consisting of a single pair of a high index dielectric, Ta_2O_5, and low index dielectric, SiO_2, exhibited a high peak external quantum efficiency of 33.7% compared to a standard OLED in the same device architecture with a peak external quantum efficiency of 25.6%. We have also found in our study that narrow band emission sources in tuned microcavity OLEDs exhibit larger enhancements in light out-coupling efficiency accompanied by small changes in color with respect to viewing angle compared to broad band emitters which is advantageous in display applications.

机译：使用四齿环金属化铂络合物PtNIN开发了一种高效的绿色微腔有机发光二极管，其本质上是窄的发射光谱带（FWHM = 18 nm）。在具有由高折射率电介质Ta_2O_5和低折射率电介质SiO_2组成的一对的MOLED中采用窄带发射器的器件，与具有OLED的相同器件体系结构中的标准OLED相比，具有33.7％的高峰值外部量子效率。峰值外部量子效率为25.6％。在我们的研究中我们还发现，与宽带发射器相比，调谐的微腔OLED中的窄带发射源在光输出耦合效率方面表现出更大的增强，并且与视角有关的颜色变化很小，这在显示应用中是有利的。

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来源
《Organic Electronics 》 |2016年第10期| 141-147| 共7页
作者
Tyler Fleetham; Jeremy Ecton; Guijie Li; Jian Li;
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作者单位

Department of Material Science and Engineering, Arizona State University, Tempe, AZ 85284, USA;

Department of Material Science and Engineering, Arizona State University, Tempe, AZ 85284, USA;

Department of Material Science and Engineering, Arizona State University, Tempe, AZ 85284, USA;

Department of Material Science and Engineering, Arizona State University, Tempe, AZ 85284, USA;

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正文语种 eng
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关键词
Microcavity; Platinum complexes; Light extraction; Narrow spectral emission band;

机译：微腔;铂络合物;光提取;窄光谱发射带;

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Improved out-coupling efficiency from a green microcavity OLED with a narrow band emission source

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