量子点
材料科学
单层
光电子学
制作
平版印刷术
光刻
二极管
纳米技术
沉积(地质)
像素
发光二极管
半导体
过程(计算)
砷化镓
光致发光
电子束光刻
作者
Kuibao Yu,Yanbing Liu,Zhihan Lin,Yongshen Yu,Fushan Li,Hailong Hu
标识
DOI:10.1021/acsami.5c22872
摘要
The photolithographic patterning of heavy-metal-free InP quantum dots (QDs) is of significance for applications in high-resolution displays. Light-driven direct cross-linking of ligands from adjacent QDs, without introducing insulating photoresist, is a feasible strategy. Nonetheless, the randomly arranged, loosely stacked QDs generated by traditional deposition present significant interstitial voids, which hinder the effective cross-linking of ligands. In this study, close-packed monolayer InP QDs are assembled utilizing Langmuir-Blodgett (LB) technology to facilitate robust cross-linking. The QDs arranged side by side, followed by the photo-cross-linking process, demonstrate superior resistance to the developing process compared to those derived from spin-coated (SC) films. InP QD light-emitting diodes (QLEDs) with finely patterned pixels (average size of 3 μm × 3 μm) have been successfully fabricated, achieving a resolution exceeding 4000 pixels per inch. Additionally, the patterned monolayer QLEDs exhibit a high external quantum efficiency of 9.56%, considerably outperforming those of SC-based devices (4.99%). This work presents a promising approach for the lithographic fabrication of environment-friendly QLEDs.
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