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Electroluminescence Stability of Organic Light-EmittingDevices Utilizing a Nondoped Pt-Based Emission Layer

机译：有机发光的电致发光稳定性使用非掺杂的基于Pt的发射层的设备

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We study the effects of using an emitting material (Pt(II) bis(3-(trifluoromethyl)-5-(2-pyridyl)pyrazolate—Pt(fppz)2) characterized by a preferred horizontal dipole alignment and a nearly unitary quantum yield regardless of concentration on the lifetime of organic light-emitting devices (OLEDs). Using such a material as a dopant in increasingly higher concentrations is found to lead to an increase in device stability, a trend that is different from that commonly observed with conventional OLED guests. The results are consistent with the newly discovered exciton–polaron-induced aggregation degradation mechanism of OLED materials. When this emitter is used as a neat emission layer, the material is already in a highly aggregated state, and the device is no longer affected by exciton–polaron interactions. The results demonstrate the potential stability benefits of using such materials in OLEDs.

机译：我们研究了使用发光材料（Pt（II）双（3-（三氟甲基）-5-（2-吡啶基）吡唑酸酯-Pt（fppz）2）的效果，其特征是优选的水平偶极排列和接近单一的量子产率不考虑有机发光器件（OLED）寿命上的浓度。发现使用这种材料作为浓度越来越高的掺杂剂会导致器件稳定性增加，这种趋势不同于常规OLED所普遍观察到的趋势。结果与新发现的激子-极化子诱导的OLED材料的聚集降解机理相一致，当该发射极用作整齐的发射层时，该材料已经处于高度聚集状态，并且该器件不再受到影响通过激子-极化子相互作用，结果证明了在OLED中使用此类材料的潜在稳定性。

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期刊名称 ACS Omega
作者
Yingjie Zhang; *; §; Jia-Ling Liao; Yun Chi; *; ∥; Hany Aziz;
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年(卷),期 2018(3),5
年度 2018
页码 4760–4765
总页数 6
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专利

1. Electroluminescence Stability of Organic Light-Emitting Devices Utilizing a Nondoped Pt-Based Emission Layer [J] . Yingjie Zhang, Jia-Ling Liao, Yun Chi, ACS Omega . 2018,第5期

机译：利用非掺杂的Pt基发光层的有机发光器件的电致发光稳定性
2. Enhanced Electroluminescence in Organic Light-Emitting Diodes Utilizing Co-doped Emissive Layer for Red Light Emission [J] . Takumi Sawatani, Nonmember, Yutaka Ohmori IEICE Transactions on Electronics . 2000,第7期

机译：利用共掺杂发光层实现红色发光的有机发光二极管增强电致发光
3. Ultrathin Nondoped Emissive Layers for Efficient and Simple Monochrome and White Organic Light-Emitting Diodes [J] . Yongbiao Zhao, Jiangshan Chen, Dongge Ma ACS applied materials & interfaces . 2013,第3期

机译：超薄非掺杂发光层，用于高效，简单的单色和白色有机发光二极管
4. Cathodoluminescence and Electroluminescence from Multi-layered Organic Structures Induced by Field Electron Emission from Carbon Nanotubes [C] . Alexer A. Kuznetzov, Alexer A. Zakhidov, Raquel Ovalle, Organic Light-Emitting Materials and Devices IX . 2005

机译：碳纳米管场电子发射引起的多层有机结构的阴极发光和电致发光
5. Colloidal electroluminescence: Novel routes to controlled emission of organic light emitting diode devices [D] . Huebner, Christopher Fletcher 2009

机译：胶体电致发光：控制有机发光二极管器件发射的新途径
6. Utilizing Electroplex Emission to Achieve External Quantum Efficiency up to 18.1 in Nondoped Blue OLED [O] . Xuejun Zhan, Zhongbin Wu, Yanbin Gong, 2020

机译：在非掺杂的蓝色OLED中利用电复合发光实现外部量子效率高达18.1％
7. Investigating the Factors Governing the Efficiency and the Electroluminescence Stability in Simplified Phosphorescent Organic Light-Emitting Devices Utilizing One Material for Both Hole Transport and Emitter Host [O] . Abdelmalek Mina 2013

机译：研究使用一种材料同时用于空穴传输和发射体的简化磷光有机发光器件的效率和电致发光稳定性的控制因素
8. Mechanism of the Cathodic Electroluminescence in Inorganic Ionic Solutions: Injection of Electrons from the Cathode into the Electrical Double Layer [R] . Haugsjaa, P. O., Heller, A., French, K. W. 1971

机译：无机离子溶液中阴极电致发光的机理：从阴极注入电双层电子

Electroluminescence Stability of Organic Light-EmittingDevices Utilizing a Nondoped Pt-Based Emission Layer

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