Advances in Full-Color Microdisplays Based on MicroLED for AR and VR Applications

IEEE Open Journal on Immersive Displays Pub Date : 2024-08-20 DOI:10.1109/OJID.2024.3446761

Shan Huang;Feng Feng;Zichun Li;Yibo Liu;Man Hoi Wong;Hoi Sing Kwok;Zhaojun Liu

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Abstract

With the continuous proliferation of augmented reality (AR) and virtual reality (VR) technologies, especially as their applications expand across entertainment, education, healthcare, and industrial sectors, the demand for full-color microdisplays based on micro-light-emitting diodes (MicroLEDs) is expected to grow significantly. This paper reviews the latest advancements in achieving full-color microdisplays, particularly those utilizing MicroLED technology and summarizes the methods employed by various research groups in recent years to better meet the display requirements of AR/VR devices. These methods include mass transfer technology, quantum dot color conversion technology, multi-material epitaxial layer stacking technology, JBD's x-cube technology, and several other emerging technologies. These approaches provide feasible technological pathways for the realization of full-color microdisplays and offer valuable references for the future development of MicroLED-based full-color microdisplays.

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基于 MicroLED 的全彩微显示器在 AR 和 VR 应用中的进展

随着增强现实（AR）和虚拟现实（VR）技术的不断普及，特别是其应用领域在娱乐、教育、医疗保健和工业领域的不断扩大，对基于微型发光二极管（MicroLED）的全彩微型显示器的需求预计将大幅增长。本文回顾了实现全彩微型显示器，特别是利用 MicroLED 技术实现全彩微型显示器的最新进展，并总结了近年来各研究小组为更好地满足 AR/VR 设备的显示要求而采用的方法。这些方法包括传质技术、量子点色彩转换技术、多材料外延层堆叠技术、JBD 的 x 立方体技术以及其他一些新兴技术。这些方法为实现全彩微显示器提供了可行的技术途径，并为基于 MicroLED 的全彩微显示器的未来发展提供了有价值的参考。

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IEEE Open Journal on Immersive Displays

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