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  • Title: Light extraction from quantum dot light emitting diodes by multiscale nanostructures.
    Author: Wang S, Li C, Xiang Y, Qi H, Fang Y, Wang A, Shen H, Du Z.
    Journal: Nanoscale Adv; 2020 May 19; 2(5):1967-1972. PubMed ID: 36132497.
    Abstract:
    Improving the light extraction efficiency by introducing optical-functional structures outside of quantum dot light emitting diodes (QLEDs) for further enhancing the external quantum efficiency (EQE) is essential for their application in display and lighting industries. Although the efficiency of QLEDs has been optimized by controlling the synthesis of the quantum dots, the low outcoupling efficiency is indeed unresolved because of total internal reflections, waveguides and metal surface absorptions within the device. Here, we utilize multiscale nanostructures attached to the outer surface of the glass substrate to extract the trapped light from the emitting layers of QLEDs. The result indicates that both the EQE and luminance are improved from 12.29% to 17.94% and 122 400 cd m-2 to 178 700 cd m-2, respectively. The maximum EQE and current efficiency improve to 21.3% and 88.3 cd A-1, respectively, which are the best performances among reported green QLEDs with light outcoupling nanostructures. The improved performance is ascribed to the elimination of total internal reflection by multiscale nanostructures attached to the outer surface of the QLEDs. Additionally, the simulation results of the finite-difference time domain (FDTD) also demonstrate that the light trapping effect is reduced by the multiscale nanostructures. The design of novel light outcoupling nanostructures for further improving the efficiency of QLEDs can promote their application in display and lighting industries.
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