Enhancing hole-injection efficiency of top-emitting organic light-emitting diodes based on Al/MoNx anodes

•TOLEDs with Al/MoNx anodes with different growth time of MoNx films have been prepared.•Al/MoNx anodes show high optical reflectivity and good electrical conductivity.•Al/MoNx (8 s) shows higher work function than that of ITO.•TOLEDs with Al/MoNx (8 s) exhibit better device performance than BOLEDs...

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Published in:Materials letters 2023-01, Vol.331, p.133424, Article 133424
Main Authors: Li, Yuxiong, Zhu, Xiaozhao, Liu, Fengfeng, Sui, Zhanpeng, Wang, Bo, Jiang, Chunping, Liao, Liangsheng
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Language:English
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Electrical properties
Luminescence
Organic
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container_title Materials letters
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Zhu, Xiaozhao
Liu, Fengfeng
Sui, Zhanpeng
Wang, Bo
Jiang, Chunping
Liao, Liangsheng
description •TOLEDs with Al/MoNx anodes with different growth time of MoNx films have been prepared.•Al/MoNx anodes show high optical reflectivity and good electrical conductivity.•Al/MoNx (8 s) shows higher work function than that of ITO.•TOLEDs with Al/MoNx (8 s) exhibit better device performance than BOLEDs with ITO anodes. High reflectivity bottom anodes are essential for high luminance efficiency top-emitting organic light-emitting diodes (TOLEDs). Although the element Al has high optical reflectivity, its poor hole-injection property severely hinders the realization of high efficient TOLED due to its low work function. In this letter, a high work function MoNx layer with different growth time was deposited on Al layers for enhancing the hole-injection efficiency of TOLEDs. Compared with the bottom-emitting OLED (BOLED) using indium-tin oxide (ITO) anode, the TOLED with Al/MoNx (8 s) anode shows a lower driving voltage of 3.1 eV than that (3.4 eV) of the BOLED at 20 mA/cm2, which may attribute to higher work function of MoNx leading to a stronger hole-injection. Moreover, the TOLED with Al/MoNx (8 s) anode exhibits higher brightness (11800 cd/m2) at 20 mA/cm2, higher maximum current efficiency (64.6 cd/A) and narrower electroluminescence spectra. These results indicate that the Al/MoNx layers could be effective hole-injection anodes for achieving high-performance TOLEDs.
doi_str_mv 10.1016/j.matlet.2022.133424
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High reflectivity bottom anodes are essential for high luminance efficiency top-emitting organic light-emitting diodes (TOLEDs). Although the element Al has high optical reflectivity, its poor hole-injection property severely hinders the realization of high efficient TOLED due to its low work function. In this letter, a high work function MoNx layer with different growth time was deposited on Al layers for enhancing the hole-injection efficiency of TOLEDs. Compared with the bottom-emitting OLED (BOLED) using indium-tin oxide (ITO) anode, the TOLED with Al/MoNx (8 s) anode shows a lower driving voltage of 3.1 eV than that (3.4 eV) of the BOLED at 20 mA/cm2, which may attribute to higher work function of MoNx leading to a stronger hole-injection. Moreover, the TOLED with Al/MoNx (8 s) anode exhibits higher brightness (11800 cd/m2) at 20 mA/cm2, higher maximum current efficiency (64.6 cd/A) and narrower electroluminescence spectra. 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High reflectivity bottom anodes are essential for high luminance efficiency top-emitting organic light-emitting diodes (TOLEDs). Although the element Al has high optical reflectivity, its poor hole-injection property severely hinders the realization of high efficient TOLED due to its low work function. In this letter, a high work function MoNx layer with different growth time was deposited on Al layers for enhancing the hole-injection efficiency of TOLEDs. Compared with the bottom-emitting OLED (BOLED) using indium-tin oxide (ITO) anode, the TOLED with Al/MoNx (8 s) anode shows a lower driving voltage of 3.1 eV than that (3.4 eV) of the BOLED at 20 mA/cm2, which may attribute to higher work function of MoNx leading to a stronger hole-injection. Moreover, the TOLED with Al/MoNx (8 s) anode exhibits higher brightness (11800 cd/m2) at 20 mA/cm2, higher maximum current efficiency (64.6 cd/A) and narrower electroluminescence spectra. 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High reflectivity bottom anodes are essential for high luminance efficiency top-emitting organic light-emitting diodes (TOLEDs). Although the element Al has high optical reflectivity, its poor hole-injection property severely hinders the realization of high efficient TOLED due to its low work function. In this letter, a high work function MoNx layer with different growth time was deposited on Al layers for enhancing the hole-injection efficiency of TOLEDs. Compared with the bottom-emitting OLED (BOLED) using indium-tin oxide (ITO) anode, the TOLED with Al/MoNx (8 s) anode shows a lower driving voltage of 3.1 eV than that (3.4 eV) of the BOLED at 20 mA/cm2, which may attribute to higher work function of MoNx leading to a stronger hole-injection. Moreover, the TOLED with Al/MoNx (8 s) anode exhibits higher brightness (11800 cd/m2) at 20 mA/cm2, higher maximum current efficiency (64.6 cd/A) and narrower electroluminescence spectra. These results indicate that the Al/MoNx layers could be effective hole-injection anodes for achieving high-performance TOLEDs.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.matlet.2022.133424</doi></addata></record>
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Organic
title Enhancing hole-injection efficiency of top-emitting organic light-emitting diodes based on Al/MoNx anodes
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