光学微腔调节顶发射单色绿光OLED微显示器件色纯度研究  

Improvement of Color Purity of Organic Monochromatic Green Top-emitting Micro-display Devices by Using Optical Microcavity

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作  者:秦国辉 于晓辉 钱福丽[1] 段瑜 杨启鸣 芶国汝[1] QIN Guohui;YU Xiaohui;QIAN Fuli;DUAN Yu;YANG Qiming;GOU Guoru(Yunnan Olightek Opto-electronic Technology Co.,Ltd.,Kunming 650223,China;Kunming Institute of Physics,Kunming 650223,China)

机构地区:[1]云南北方奥雷德光电科技股份有限公司,云南昆明650223 [2]昆明物理研究所,云南昆明650223

出  处:《红外技术》2022年第7期652-658,共7页Infrared Technology

基  金:云南省技术创新人才培养项目(2017HB111,2018CX069SQ)。

摘  要:有机电致发光器件的发光颜色与色纯度在很大程度上受限于有机材料本身特性,而通过光学微腔效应可以从器件结构的改变来进行色纯度的调节。本文介绍了一种通过调节有机结构中空穴传输层和电子阻挡层厚度,从而改变器件微腔腔长,获得高纯度顶发射单色发光器件的方法。利用这种方法制作的有机顶发射绿色磷光器件结构为Si Substrate/Ag/ITO/NPB:F16CuPc(10 nm,3%)/NPB(x nm)/TCTA(y nm)/mCP:Ir(ppy)3(40 nm,6%)/Bphen:Liq(30 nm,40%)/Mg:Ag(12 nm,10%)/Alq3(35 nm),改变NPB和TCTA的厚度,获得了高色纯度发光器件,正向出射绿光的色坐标达到(0.2092,0.7167),接近标准绿光(0.21,0.71)。The color purity of organic light-emitting devices is restricted mostly by the intrinsic character of the emitting material;however,the optical microcavity can improve the color purity by changing the structure of the devices.In this study,we demonstrated that a high color purity monochromatic top-emitting device can be obtained by changing the length of the microcavity.By adjusting the thicknesses of the hole transport layer and electron barrier layer,high color purity organic green phosphorescent top-emitting electroluminescent devices were fabricated.The structure of the devices was an Si substrate/Ag/ITO/NPB:F16CuPc(10 nm,3%)/NPB(x nm)/TCTA(y nm)/mCP:Ir(ppy)3(40 nm,6%)/Bphen:Liq(30 nm,40%)/Mg:Ag(12 nm,10%)/Alq3(35 nm).Direct green emission with chromaticity coordinates of(0.2092,0.7167)was obtained by changing the thicknesses of NPB and TCTA;this resulted in standard green light(0.21,0.71).

关 键 词:OLED微显示器 绿光 色纯度 光学微腔 

分 类 号:TN214[电子电信—物理电子学]

 

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