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RGB Arrays for Micro-Light-Emitting Diode Applications Using Nanoporous GaN Embedded with Quantum Dots

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journal contribution
posted on 2020-06-24, 15:38 authored by Jin-Ho Kang, Bingjun Li, Tianshuo Zhao, Muhammad Ali Johar, Chien-Chung Lin, Yen-Hsiang Fang, Wei-Hung Kuo, Kai-Ling Liang, Shu Hu, Sang-Wan Ryu, Jung Han
The multiple light scattering of nanoporous (NP) GaN was systematically studied and applied to the color down-conversion for micro-light-emitting diode (LED) display applications. The transport mean free path (TMFP) in NP GaN is 660 nm at 450 nm (light wavelength), and it decreases with a decreasing wavelength. It was observed that the short TMFP of the NP GaN increased the light extinction coefficient at 370 nm by 11 times. Colloidal QDs were loaded into a half 4″ wafer scale NP GaN, and 96 and 100% of light conversion efficiencies for green and red were achieved, respectively. By loading green and red QDs selectively into NP GaN mesas, we demonstrated the RGB microarrays based on the blue-violet pumping light with green and red color converting regions.

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