Issue 29, 2022

Color controllable smart white lighting based on various device architectures of electrically driven quantum-dot light-emitting diodes

Abstract

A comprehensive study of the various device architectures of patterned-, stacked-, and mixed-type quantum-dot light-emitting diodes (QD-LEDs) for smart white lighting has been performed by way of computational simulation and experimental device fabrication. The layout of the patterned-type QD-LED has been optimized by a rigorous charge transport simulation and a numerical grid searching color optimization method. The patterned-type QD-LED devices are fabricated using a unique transfer printing technique to validate design concepts. The architectural dependency on the color of the stacked-type QD-LED has been computationally and experimentally explored by the charge transport simulation with the electric-field-dependent carrier hopping model and by fabricating the devices with a multi-step spin-coating process. The mixed-type QD-LED has also been experimentally analyzed by the QD volume mixing ratios in the mixture solution. These three types of patterned, stacked, and mixed QD-LED device architectures show potential for various applications of functionalized next-generation smart white lighting systems.

Graphical abstract: Color controllable smart white lighting based on various device architectures of electrically driven quantum-dot light-emitting diodes

Supplementary files

Article information

Article type
Paper
Submitted
15 Mar 2022
Accepted
27 Jun 2022
First published
29 Jun 2022
This article is Open Access
Creative Commons BY license

J. Mater. Chem. C, 2022,10, 10728-10741

Color controllable smart white lighting based on various device architectures of electrically driven quantum-dot light-emitting diodes

D. Shin, S. Lee, H. W. Choi, S. Y. Bang, S. D. Han, Y. J. Cho, X. Fan, J. Jo, L. Ni, C. Samarakoon, A. Arbab, J. Yang, Y. Kim, S. Jung, L. G. Occhipinti, G. A. J. Amaratunga and J. M. Kim, J. Mater. Chem. C, 2022, 10, 10728 DOI: 10.1039/D2TC01060G

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