激基复合物

  • 网络Exciplex;electroplex;excimer
激基复合物激基复合物
  1. 2,6-萘二甲酸二甲酯与一些二甲基萘所形成的激基复合物

    The exciplex formation between 2,6-dimethyl naphthalene dicarboxylate and some dimethyl Naphthalenes

  2. 从实验结果得到,亚甲基桥链的碳数为奇数时容易形成分子内激基复合物。

    From the experimental results , it can be seen , when the number of the carbon atoms of methylene bridge is odd , intra exciplex is readily formed .

  3. 激基复合物与有机聚合物EL性能的关系

    The Relation of Exciplex Formation and Organic & Polymer EL

  4. 随着CBP厚度增加,激基复合物和电致激基复合物发光都被消除。

    When the film thickness of CBP layer is increased , light emission of exciplex and electroplex were both eliminated .

  5. 铕配合物OEL器件中激基复合物发光机制及消除

    Luminescence Analysis Mechanism of Exciplex Formation and Elimination of Exciplex Emission in Organic Electroluminescent Devices with Europium-Complex

  6. 为了调制激基复合物发光的强度,用薄层的CBP作为隔离层加入到NPB和BDHFLYDFLQ材料之间。

    In order to manipulate the strength of exciplex emission , thin layer of CBP was inserted into the interface of NPB / BDHFLYDFLQ heterojunction .

  7. 以Gd(DBM)3bath为电子传输材料,通过器件设计在一定程度上消除了激基复合物对器件性能的影响,制备了非掺杂的效率相对较高的蓝光电致发光器件。

    By optimizing device which eliminates the effect of exciplex formation on the properties of the device , the no-doping efficient blue OEL device is fabricated using Gd ( DBM ) 3bath as electron transporting material .

  8. 激基复合物谱带中发射峰的位置与溶剂特性常数S之间的关系符合Brownstein公式。

    The relationship between the wavelength of the exciplex fluorescence band maximum and the characteristic parameter of the solvent obeys Brownstein equation satisfactorily .

  9. 为了简化WOLED器件的制备工艺,利用激基复合物/电致激基复合物发光来调制发光光谱是得到高色纯度白光器件的一个重要方法。

    Using electroplex or / and exciplex to modulate the emission spectrum of the white diode is considered as an important way , which can simplify the preparation process of WOLED .

  10. 芴类衍生物有机电致发光器件中的激基复合物

    Exciplex in organic light-emitting diode based on a fluorene molecular derivative

  11. 荧光淬灭的同时有相应的激基复合物形成。

    The quenching was accompanied by the formation of the corresponding exciplex .

  12. PVK/BCP体系电致激基复合物的研究

    The Study of Electroplex Emission Based on PVK / BCP

  13. 利用钆配合物调节激基复合物发光颜色的一种有机发光二极管

    Organic Light-emitting Diode with Tunable Exciplex Emission Colour Using Gadolinium Complex as a Functional Layer

  14. 颜色文化&白色利用激基复合物发光的有机白光电致发光器件

    White Light Emission from Exciplex

  15. 三分子激基复合物的研究

    Study on triple exciplex

  16. 本文通过稳态和动态荧光光谱研究了这类激基复合物的形成与分子结构的关系。

    The relationship between the exciplex formation and molecular structure was studied by steady state and transient fluorescence measurements .

  17. TPD/PBD界面电致激基复合物几何结构和电子结构的理论

    Theory on Geometrical Structure and Electronic Configuration of Electroplex at the TPD / PBD Interface in Organic Light-emitting Diodes

  18. 有机微量元素络(螯)合物的螯合率测定方法简述芴类衍生物有机电致发光器件中的激基复合物

    Determination of Chelating Rate in Organic Trace Element Complexes Exciplex in organic light-emitting diode based on a fluorene molecular derivative

  19. 但是激基复合物发光一般效率较低,色度不稳定。

    However , as is known to all , electroplex or exciplex luminescence has some drawbacks such as low efficient , color instability .

  20. 但其往往易与空穴传输材料形成激基复合物,大大降低了器件的性能,这同时也限制了稀土配合物的应用。

    However , there are exciplex emission in the interface between the RE complex and the hole transporting materials which limited the application of the rare earth complex for OEL .

  21. 介绍了制备有机电致白光发光器件的几种方法:染料掺杂法、量子阱结构法、激基复合物发光法、微腔结构法、多发光层结构法和利用白光发光材料发光法等。

    Some methods of fabricating white organic electroluminescence diodes were introduced , which are utilizing dyes doped , utilizing organic quantum-well structure , utilizing light-emitting from exciplex , utilizing micro-cavity structure , utilizing stacked emitting layer , and utilizing white emitting materials , etc.

  22. 激基缔合物和激基复合物的形成及溶剂效应的研究

    Research on the Formation of Excimer and Exciplex and the Solvent Effect

  23. 在固态下,有机小分子很容易形成各种聚集形态(激基缔合物、激基复合物或聚集体)。

    Small organic molecules can easily form aggregation morphology ( excimers , exciplexes , or aggregates ) in the solid state .

  24. 结果表明,它们既能形成分子内激基缔合物(excimer),又能形成分子内激基复合物(exciplex),与溶剂极性有关。

    The results indicate that they exhibit both intramolecular excimer and exciplex formation depending on the solvent polarity .