Improved Color Purity of Monolithic Full Color Micro-LEDs Using Distributed Bragg Reflector and Blue Light Absorption Material

Shao-Yu Chu,Wei-Hung Kuo,Hung-Yu Wang,Hsin-Ying Lee,Chien-Chung Lin,Kai-Ling Laing,Ching-Ting Lee,Yen-Hsiang Fang

doi:10.3390/coatings10050436

Abstract

In this study, CdSe/ZnS core-shell quantum dots (QDs) with various dimensions were used as the color conversion materials. QDs with dimensions of 3 nm and 5 nm were excited by gallium nitride (GaN)-based blue micro-light-emitting diodes (micro-LEDs) with a size of 30 μm × 30 μm to respectively form the green and red lights. The hybrid Bragg reflector (HBR) with high reflectivity at the regions of the blue, green, and red lights was fabricated on the bottom side of the micro-LEDs to reflect the downward light. This could enhance the intensity of the green and red lights for the green and red QDs/micro-LEDs to 11% and 10%. The distributed Bragg reflector (DBR) was fabricated on the QDs color conversion layers to reflect the non-absorbed blue light that was not absorbed by the QDs, which could increase the probability of the QDs excited by the reflected blue light. The blue light absorption material was deposited on the DBR to absorb the blue light that escaped from the DBR, which could enhance the color purity of the resulting green and red QDs/micro-LEDs to 90.9% and 90.3%, respectively.

Highlights

Display screens have been widely used in daily life, and liquid crystal display (LCD) and organic light-emitting diode (OLED) displays are the mainstream of display technology [1]
Each pixel of the full color micro-LED display is constructed by red, green, and blue light sources; different light source colors can be obtained by controlling the ratio of the three primary colors
The epitaxial wafers of the gallium nitride (GaN)-based blue micro-LEDs were supported by Epistar

Summary

Introduction

Display screens have been widely used in daily life, and liquid crystal display (LCD) and organic light-emitting diode (OLED) displays are the mainstream of display technology [1]. Breakthrough progress has been made in semiconductor manufacturing technology, leading to the abrupt rise of micro-light-emitting diodes (micro-LEDs). Each pixel of the full color micro-LED display is constructed by red, green, and blue light sources; different light source colors can be obtained by controlling the ratio of the three primary colors. This method includes disadvantages such as different lifetime and complex driver circuits

Methods

Discussion

Conclusion