Quantum dot-integrated GaN light-emitting diodes with resolution beyond the retinal limit

光电子学 材料科学 微透镜 薄脆饼 微尺度化学 量子点 发光二极管 二极管 平版印刷术 集成电路 超短脉冲 固态照明 纳米技术 光学 镜头(地质) 物理 数学教育 数学 激光器
作者
Junho Bae,Yuseop Shin,Hyungyu Yoo,Yongsu Choi,Jinho Lim,Dasom Jeon,Ilsoo Kim,Myung-Soo Han,Seunghyun Lee
出处
期刊:Nature Communications [Nature Portfolio]
卷期号:13 (1) 被引量:57
标识
DOI:10.1038/s41467-022-29538-4
摘要

Near-eye display technology is a rapidly growing field owing to the recent emergence of augmented and mixed reality. Ultrafast response time, high resolution, high luminance, and a dynamic range for outdoor use are all important for non-pixelated, pupil-forming optics. The current mainstream technologies using liquid crystals and organic materials cannot satisfy all these conditions. Thus, finely patterned light-emissive solid-state devices with integrated circuits are often proposed to meet these requirements. In this study, we integrated several advanced technologies to design a prototype microscale light-emitting diode (LED) arrays using quantum dot (QD)-based color conversion. Wafer-scale epilayer transfer and the bond-before-pattern technique were used to directly integrate 5-µm-scale GaN LED arrays on a foreign silicon substrate. Notably, the lithography-level alignment with the bottom wafer opens up the possibility for ultrafast operation with circuit integration. Spectrally pure color conversion and solvent-free QD patterning were also achieved using an elastomeric topographical mask. Self-assembled monolayers were applied to selectively alter the surface wettability for a completely dry process. The final emissive-type LED array integrating QD, GaN, and silicon technology resulted in a 1270 PPI resolution that is far beyond the retinal limit.

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