Preparation of light-emitting devices with poly(p-phenylenevinylene): effects of thermal elimination conditions and polymer layer thickness on device performance

Seoul C.; Mah SI.; Lee CH.; Kang JI.

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Preparation of light-emitting devices with poly(p-phenylenevinylene): effects of thermal elimination conditions and polymer layer thickness on device performance

机译：用聚对亚苯基亚乙烯基制备发光器件：散热条件和聚合物层厚度对器件性能的影响

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The optimum thermal elimination conditions for poly( p-phenylene vinylene) light-emitting diodes were sought. The precursor films should be heated to 230 degrees C and kept at this temperature for 5 min under a N-2 flow of 50 ml/min. By the heat treatment the degree of conversion to PPV was about 70%. A method determining the degree of conversion to PPV was proposed with IR measurement. About 8% of the THT resides in the fully converted PPV. A high external quantum efficiency of 0.0078% was achieved for the ITO/partially converted PPV/Al devices. The optimum thickness for the partially converted PPV layer as a electroluminescent was about 150 nm. (C) 1999 Elsevier Science S.A. All rights reserved. [References: 17]

机译：寻找聚（对亚苯基亚乙烯基）发光二极管的最佳除热条件。前体薄膜应加热到230摄氏度，并在50毫升/分钟的N-2流量下在此温度下保持5分钟。通过热处理，向PPV的转化率约为70％。提出了一种通过红外测量确定转化为PPV的方法。大约8％的THT位于完全转换的PPV中。 ITO /部分转换的PPV / Al器件实现了0.0078％的高外部量子效率。对于部分转化的PPV层作为电致发光的最佳厚度约为150 nm。（C）1999 Elsevier Science S.A.保留所有权利。 [参考：17]

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《Synthetic Metals》 |1999年第1期|共9页
作者
Seoul C.; Mah SI.; Lee CH.; Kang JI.;
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正文语种 eng
中图分类工程材料学;黑色金属材料;
关键词
Polymer; Light emitting diode; Poly(p-phenylene vinylene); Thermal elimination conditions; External quantum efficiency; Brightness; Degree of conversion; Precursor film; Electroluminescence; Poly(para-phenylene vinylene); Electrical-conductivity; Diodes; Electroluminescence;

机译：聚合物;发光二极管;聚（对亚苯基亚乙烯基）;热消除条件;外部量子效率;亮度;转化率;前体膜;电致发光;聚（对亚苯基亚乙烯基）;电导率;二极管;电致发光;

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专利

1. Preparation of light-emitting devices with poly(p-phenylenevinylene): effects of thermal elimination conditions and polymer layer thickness on device performance [J] . Seoul C., Mah SI., Lee CH., Synthetic Metals . 1999,第1期

机译：用聚对亚苯基亚乙烯基制备发光器件：散热条件和聚合物层厚度对器件性能的影响
2. Effects of cathode thickness and thermal treatment on the design of balanced blue light-emitting polymer device [J] . Byung Doo Chin, Lian Duan, Moo-Hyun Kim, Applied Physics Letters . 2004,第19期

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3. Effects of solution-processed polymer interlayers on hole injection and device performance of polymer light-emitting diodes [J] . M. James Harding, Dmitry Poplavskyy, V.-E. Choong, Organic Electronics . 2008,第2期

机译：固溶处理的聚合物中间层对空穴注入和聚合物发光二极管器件性能的影响
4. Preparation of light-emitting devices with poly(p-phenylenevinylene): effects of thermal elimination conditions and polymer layer thickness on device performance [C] . Chang Seoul, Inha Univ., Inchon, Polymer Photonic Devices . 1998

机译：用聚对亚苯基亚乙烯基制备发光器件：散热条件和聚合物层厚度对器件性能的影响
5. Synthesis and characterization of new poly(phenylene vinylene), polyfluorene, and poly(naphthalene vinylene) derivatives for use in organic light-emitting diode (OLED) devices [D] . Saowsupa, Sairoong 2008

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6. Solution-Processed Hybrid Light-Emitting Devices Comprising TiO2 Nanorods and WO3 Layers as Carrier-Transporting Layers [O] . Tsung-Yan Tsai, Po-Ruei Yan, Sheng-Hsiung Yang 2016

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7. Organic Light-Emitting Devices: Air-Stable and High-Performance Solution-Processed Organic Light-Emitting Devices Based on Hydrophobic Polymeric Ionic Liquid Carrier-Injection Layers (Adv. Mater. 18/2018) [O] . Shugo Sato, Satoru Ohisa, Yukihiro Hayashi, 2018

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8. Exciplex Emission in Bilayer Polymer Light-Emitting Devices [R] . Gebler, D. D., Wang, Y. Z., Blatchford, J. W., 1997

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Preparation of light-emitting devices with poly(p-phenylenevinylene): effects of thermal elimination conditions and polymer layer thickness on device performance

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