IMPROVED ELECTRON INJECTION IN ORGANIC LIGHT EMITTING DEVICES BY APPLYING THIN INSULATING LAYERS

机译：通过施加薄的绝缘层改进了有机发光器件中的电子注入

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We present the fabrication and characterization of organic light emitting devices (OLEDs) using thin insulating layers for improved electron injection. The OLEDs are constructed with an ITO anode and an aluminum cathode. For the active layer we use either ladder-type Polyparaphenylene (m-LPPP) or Parahexaphenyl (PHP). A thin film of an insulating material is applied between the active layer and the cathode, in order to achieve a better tunnel injection due to a higher electric field at the interface. We compared different insulating materials with various thickness. The best results are obtained by using a LiF-layer with a thickness between 10 A and 15 A. Thereby the onset voltage decreases and the current density in the device increases significantly.

机译：我们使用薄的绝缘层介绍有机发光器件（OLED）的制造和表征，以改善电子注射。 OLED用ITO阳极和铝阴极构成。对于有源层，我们使用梯型聚蛋白苯乙烯（M-LPPP）或副氧化苯基（PHP）。在有源层和阴极之间施加绝缘材料的薄膜，以实现由于界面处的较高电场引起的更好的隧道喷射。我们比较了各种厚度的不同的绝缘材料。通过使用厚度在10a和15a之间的Lif层获得最佳结果。从而开始起始电压降低，并且器件中的电流密度显着增加。

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《Symposium on electrical, optical, and magnetic properties of organic solid-state materials》|1998年||共6页
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IMPROVED ELECTRON INJECTION IN ORGANIC LIGHT EMITTING DEVICES BY APPLYING THIN INSULATING LAYERS

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