P‐11.16: Investigation of Light Leakage on the Thin‐Film‐Transistors Depending on the Micro‐LED Backplane Structures

We investigated the impact of micro‐LED backplane structures on the light leakage by optical simulation. A transparent micro‐LED display with low light leakage, high transparency, and low reflectivity can be achieved by using metal layers and black materials with specific structures on the transpare...

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Veröffentlicht in:	SID International Symposium Digest of technical papers 2024-04, Vol.55 (S1), p.1339-1341
Hauptverfasser:	Chen, Peixuan, Wang, Meng, Liu, Xiaoli, Shen, Ankang, Chen, Zemin, Chen, Jinxiang, Xie, Mengmeng, Huo, Sitao, Wu, Tianyi, Xi, Kerui, Qin, Feng
Format:	Artikel
Sprache:	eng
Schlagworte:	Backplanes Flicker Leakage Light leakage Reflectivity Thin films Transmittance Transparent Micro‐LED
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creator	Chen, Peixuan Wang, Meng Liu, Xiaoli Shen, Ankang Chen, Zemin Chen, Jinxiang Xie, Mengmeng Huo, Sitao Wu, Tianyi Xi, Kerui Qin, Feng
description	We investigated the impact of micro‐LED backplane structures on the light leakage by optical simulation. A transparent micro‐LED display with low light leakage, high transparency, and low reflectivity can be achieved by using metal layers and black materials with specific structures on the transparent backplane.
doi_str_mv	10.1002/sdtp.17358
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subjects	Backplanes Flicker Leakage Light leakage Reflectivity Thin films Transmittance Transparent Micro‐LED
title	P‐11.16: Investigation of Light Leakage on the Thin‐Film‐Transistors Depending on the Micro‐LED Backplane Structures
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