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Uniformity improvement of a mini-LED backlight by a quantum-dot color conversion film with nonuniform thickness

Wenyan Zhang, Yu Chen, Junhu Cai, Liwen Deng, Sheng Xu, Yun Ye, Qun Yan, Tailiang Guo, Enguo Chen

2023Optics Letters23 citationsDOI

Abstract

Mini-LED backlights energized by quantum-dot color conversion (QDCC) hold great potential for technological breakthroughs of liquid crystal displays. However, luminance uniformity issues should still be urgently solved owing to the large interval of direct-lit mini-LEDs, especially when covering with a QDCC film (QDCCF) with uniform thickness. Herein, we propose a uniformity improvement approach of mini-LED backlights by employing a QDCCF with nonuniform thickness based on the Lambertian distribution of mini-LEDs, which is demonstrated by screen-printing preparation and ray-tracing simulation. Experimental results show that the luminance uniformity of the nonuniform QDCCF can reach 89.91%, which is 24.92% higher than the uniform one. Ray-tracing simulation further elaborates the mechanism of this significant improvement. Finally, by employing this nonuniform QDCCF, a mini-LED backlight prototype is assembled and achieves high uniformity of 92.15%, good white balance with color coordinates of (0.3482, 0.3137), and high color gamut of 109% NTSC. This work should shed some new light on mini-LED-based display technology.

Topics & Concepts

BacklightGamutNTSCOpticsLight-emitting diodeMaterials scienceLuminanceLiquid-crystal displayRay tracing (physics)OptoelectronicsLED lampColor differenceComputer sciencePhysicsHigh-definition televisionComputer visionTelecommunicationsFilter (signal processing)Photonic Crystals and ApplicationsQuantum Dots Synthesis And PropertiesRandom lasers and scattering media
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