Nanoshuttered OLEDs: Unveiled Invisible Auxiliary Electrode |
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| Authors: | Yong Sub Shim Ju Hyun Hwang Hyun Jun Lee Kyung Bok Choi Kyu Nyun Kim Cheol Hwee Park Sun‐Gyu Jung Young Wook Park Byeong‐Kwon Ju |
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| Affiliation: | 1. Display and Nanosystem Laboratory, College of Engineering, Korea University, Seoul, Republic of Korea;2. The institute of High Technology Materials and Devices, Korea University, Seoul, Republic of Korea |
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| Abstract: | In this study, organic light‐emitting diodes (OLEDs) with enhanced optical properties are fabricated by inserting a nanosized stripe auxiliary electrode layer (nSAEL) between the substrate and an indium tin oxide (ITO) layer. This design can avoid the shortcomings of conventional microsized layers while maintaining high optical uniformity due to the improved conductivity of the electrode. The primary advantage is that the nSAEL (submicrometer scale) is no longer visible to the naked eye. Moreover, the reflective shuttered (grating) structure of the nSAEL increases the forward‐directed light by the microcavity (MC) effect and minimizes the loss of light by the extracting the surface plasmon polariton (SPP) mode. In this study, the degree of the MC and SPP can be controlled with the parameters of the nSAEL by simply conjugating the conditions of laser interference lithography (LIL). Therefore, the current and power efficiencies of the device with an nSAEL with optimized parameters are 1.17 and 1.23 times higher than the reference device at 1000 cd/m2, respectively, and at these parameters, the overall sheet resistance is reduced to less than half (48%). All of the processes are verified by comparing the computational simulation results and the experimental results obtained with the actual fabricated device. |
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| Keywords: | organic light‐emitting diodes nanosized auxiliary electrodes laser interference lithography microcavities surface plasmon polariton |
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