Effects of Organic Lithium Salt Ultrathin Films on the Electron Injection Efficiency in OLED

Yong-Min Kim; Geun-Chae Yu; Tae-Woo Lee

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Effects of Organic Lithium Salt Ultrathin Films on the Electron Injection Efficiency in OLED

机译：有机锂盐超薄膜对OLED中电子注入效率的影响

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We investigated the effects of the ultrathin film of a new cathode underlayer material, lithium tert-butyl cyclopentadienide (Li-TBCPD), on the electron injection efficiency and performance of the Alq3-based OLED. The current density-voltage-luminance (I-V-L) and the luminous efficiency characteristics of the [ITO/alpha-NPB (40 nm)/Alq3 (60 nm)/Li-TBCPD (1.0 nm)/Al]device were examined. The device with the Li-TBCPD/Al bilayer cathode demonstrated the current density of 360 A/m~2 at 12 V and the maximum luminance of 8,100 cd/m~2, while the device with the LiF/Al cathode showed 70A/m~2 and 5,800cd/m~2, respectively. This improvement seems to originate from the relatively lower bond dissociation energy of Li-TBCPD and hence the easiness of lithium layer formation beneath the aluminum cathode.

机译：我们研究了一种新型阴极底层材料，叔丁基环戊二烯酸锂（Li-TBCPD）的超薄膜对基于Alq3的OLED的电子注入效率和性能的影响。检查了[ITO /α-NPB（40 nm）/ Alq3（60 nm）/ Li-TBCPD（1.0 nm）/ Al]器件的电流密度-电压-亮度（I-V-L）和发光效率特性。具有Li-TBCPD / Al双层阴极的器件在12 V电压下的电流密度为360 A / m〜2，最大亮度为8,100 cd / m〜2，而具有LiF / Al阴极的器件显示70A / m 〜2和5,800cd / m〜2。这种改善似乎源于Li-TBCPD相对较低的键解离能，因此易于在铝阴极下方形成锂层。

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《Molecular crystals and liquid crystals 》 |2008年第0期| 共5页
作者
Yong-Min Kim; Geun-Chae Yu; Tae-Woo Lee;
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正文语种 eng
中图分类晶体学 ;
关键词
cathode modification; electron injection; lithium tert-butyl cyclopentadienide; OLEDs;

机译：阴极修饰;电子注入;叔丁基环戊二烯化锂;OLED;

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1. Effects of Organic Lithium Salt Ultrathin Films on the Electron Injection Efficiency in OLED [J] . Yong-Min Kim, Geun-Chae Yu, Tae-Woo Lee Molecular crystals and liquid crystals . 2008 ,第0期

机译：有机锂盐超薄膜对OLED中电子注入效率的影响
2. Enhancement of Luminance Efficiency in Green Organic Light-Emitting Devices Utilizing a Cesium Nitrate/Lithium Quinolate Electron Injection Layer [J] . J.H. Hwang K.S. Lee D.C. Choo T.W. Kim Molecular Crystals and Liquid Crystals . 2011 ,第1期

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4. Ultrathin Organic Multilayer Films Via Salt Formation: Easy Access To Tailor-made Coatings In The Thickness Range Of 1 Nm To 500 Nm [C] . Decher G., Hong J.-D. Engineering in Medicine and Biology Society, 1990., Proceedings of the Twelfth Annual International Conference of the IEEE . 1990

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5. Reactivity of oxide surfaces and metal-oxide interfaces: Effects of water vapor pressure on ultrathin aluminum oxide films, and studies of platinum growth modes on ultrathin oxide films and their effects on adhesion. [D] . Garza, Michelle. 2004

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Effects of Organic Lithium Salt Ultrathin Films on the Electron Injection Efficiency in OLED

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