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High-Performance Tandem White Micro-OLEDs for Virtual Reality and Mixed Reality Displays

Crystals Pub Date : 2024-03-31 DOI:10.3390/cryst14040332
Zhiyong Yang, En‐Lin Hsiang, Shin-Tson Wu
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Abstract

To achieve wide-gamut and high-efficiency tandem white OLED (WOLED) microdisplays, we propose a new structure leveraging high-order antinodes and patterned microcavities. The color gamut coverages of 95% Rec. 2020 and 92% Rec. 2020 can be achieved in B/G/R tandem WOLED with a moderate microcavity and B/YG tandem WOLED with a strong microcavity, respectively. We have also boosted the optical efficiency by 62% for the tandem B/YG WOLED using the high-order antinodes at optimal conditions. Such a WOLED microdisplay helps reduce the power consumption of virtual reality (VR) and mixed reality (MR) displays while keeping a wide color gamut.
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用于虚拟现实和混合现实显示器的高性能串联白色 Micro-OLED
为了实现广色域和高效串联白光有机发光二极管(WOLED)微显示器,我们提出了一种利用高阶反节点和图案化微腔的新结构。在采用中等微腔的 B/G/R 串联 WOLED 和采用强微腔的 B/YG 串联 WOLED 中,色域覆盖率分别达到了 95% Rec.我们还在最佳条件下利用高阶反节点将串联 B/YG WOLED 的光学效率提高了 62%。这种 WOLED 微型显示器有助于降低虚拟现实(VR)和混合现实(MR)显示器的功耗,同时保持宽广的色域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Crystals
Crystals
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