Litcius/Paper detail

Omnidirectional color shift suppression of full-color micro-LED displays with enhanced light extraction efficiency

Yongzhen Liu, Tianwen Xia, Aochen Du, Tao Liang, Zhengui Fan, Enguo Chen, Jie Sun, Qun Yan, Tailiang Guo

2023Optics Letters41 citationsDOI

Abstract

The three-primary-color chip array is the most straightforward to realize full-color micro-LED displays. However, the luminous intensity distribution shows high inconsistency between the AlInP-based red micro-LED and GaN-based blue / green micro-LEDs, resulting in the issue of angular color shift with different viewing angles. This Letter analyzes the angular dependence of color difference of conventional three-primary-color micro-LEDs, and proves that the inclined sidewall with homogeneous Ag coating has a limited angular regulation effect for micro-LEDs. Based on this, a patterned conical microstructure array is designed on the micro-LED’s bottom layer to effectively eliminate the color shift. This design cannot only regulate the emission of full-color micro-LEDs to perfectly meet Lambert’s cosine law without any external beam shaping elements, but also improve the light extraction efficiency of top emission by 16%, 161%, and 228% for red, green, and blue micro-LEDs, respectively. The color shift Δ u ′ v ′ of the full-color micro-LED display is also kept below 0.02 with the viewing angle ranging from 10° to 90°.

Topics & Concepts

Light-emitting diodeOpticsMaterials scienceColor temperatureOptoelectronicsBacklightPrimary colorLED lampLuminous efficacyLiquid-crystal displayPhysicsLayer (electronics)NanotechnologyGaN-based semiconductor devices and materialsThin-Film Transistor TechnologiesAdvanced Sensor and Energy Harvesting Materials