空穴传输材料

  • 网络hole transport material;Hole transporting materials
空穴传输材料空穴传输材料
  1. 含三苯胺基团有机空穴传输材料的合成与性能研究

    Synthesis and Properties of Novel Hole Transport Materials Containing Triphenylamine Groups

  2. 利用电子传输材料和空穴传输材料的特点得到传输电子和传输空穴相匹配的材料来提高电致发光效率,使其达到电子和空穴的注入平衡成为研究荧光化合物的新领域。

    The use of electron transport materials and hole transport materials to be characterized by transmission electron and hole transport materials to match the increased EL efficiency , to reach the equilibrium electron and hole injection into most of the new area of research .

  3. 空穴传输材料对CdSe核壳量子点的荧光影响

    Effect of Hole Transporting Materials on Photoluminescence of CdSe Core / Shell Quantum Dots

  4. 新型空穴传输材料N,N′-二苯基-N,N′-二(3-甲苯基)-4,4′-联萘胺的合成、薄膜发光与能级比较

    Synthesis , thin film photoluminescence and energy level comparison of novel hole transport material of N , N ′ - diphenyl-N , N ′ - bis ( 3-methylphenyl ) - 4,4 ′ - naphthidine

  5. Pd(OAc)2/P(t-Bu)3催化合成空穴传输材料APB的研究

    Study on synthesis of novel hole transporting materials APB by the catalyst of Pd ( OAc ) _2 / P ( t-Bu ) _3

  6. 其中封端的空穴传输材料在ITO/TPA(FP)3/ALQ3/Mg∶Ag器件中表现出高的空穴传输能力,其效率高于类似NPB的同类器件。

    The OLED device with ITO / TPA ( FP ) 3 / ALQ3 / Mg : Ag configuration show high hole-transporting ability , in which the power efficiency is higher than that in similar NPB devices .

  7. 这就形成一种有利于电荷传输的结构。电子受体材料作为电子的传输路径,而由于空穴传输材料具有比给体高分子材料较低的HOMO能级而作为空穴的传输路径。

    The electron acceptor material serves as the electron transport pathway , and the hole transport material serves as the hole transport material because of the relatively lower HOMO level compared to that of the donor material .

  8. 利用铜酞菁空穴传输材料制备了全固态染料敏化纳米TiO2太阳能电池。

    All-solid-state dye-sensitized TiO2 solar cells with phthalocyanine copper ( CuPc ) as the hole transporting layer and cis - ( SCN ) 2Bis ( 2,2 ' - bipyridyl-4,4 ' - dicarboxylate ) ruthenium ( N3 ) as the dye were fabricated .

  9. 以S-100和m-TPD作为空穴传输材料,以酞菁氧钛为电荷产生材料制备功能分离型有机光导器件并进行光电性能的测试,结果表明所合成化合物具有优异的空穴传输性能。

    The organic photoconductive device of functional separation type was prepared with S-100 and m-TPD as charge transport materials , and with Y-TiOPc as charge generation material , the test results of the device showed that the compounds had good performance of hole transport .

  10. 含萘环类三芳胺空穴传输材料的合成与性能研究

    The Synthesis of Naphthyl Hole Transport Material and Study on Property

  11. 新型空穴传输材料及聚碳酸酯的合成柔性阻挡层材料的水蒸汽穿透性的试验方法

    Testing method for water vapor transmission rate of flexible barrier materials

  12. 基于一种高效空穴传输材料的有机电致发光器件研究

    Performance of orgainc light-emitting device with a good hole transport material

  13. 有机电致发光中空穴传输材料对整个器件的性能有重要作用。

    Hole-transport materials paly a very important role in organic electroluminescent devices .

  14. 有机电致发光空穴传输材料研究进展

    Progress in Hole-Transport Materials for Use in Organic Light-Emitting Diodes

  15. 热稳定空穴传输材料的合成及其电致发光器件

    Synthesis of Thermal Stable Organic Hole Transporting Materials for Use in Electroluminescent Devices

  16. 其核心材料主要包括发光材料,电子传输材料和空穴传输材料。

    Its key materials mainly include emitter materials , electron-transporting materials and hole-transporting materials .

  17. 高聚物作为空穴传输材料的研究

    Research on Polymer as Hole - transporting Material

  18. 这种三组分活性层包含给体高分子材料,受体材料,和空穴传输材料。

    The ternary active layer contains a polymer donor material , an acceptor material , and a hole transport mateial .

  19. 用分子力学方法计算了一些空穴传输材料的偶极矩,对同一系列的传输材料,理论计算的偶极矩与氧化还原电位相关。

    Dipole moment is calculated in molecular mechanics method . For DBA derivatives , dipole moment is correlative with their oxidation-reduction potential .

  20. 介绍了高聚物空穴传输材料的研究进展情况,探讨了高聚物空穴传输材料的分子结构与器件性能的关系。

    This paper introduces the development progress of polymer hole-transporting materials , and discusses the relationship between the molecule structure of polymer hole-transporting materials and the performance of the devices .

  21. 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 .

  22. 我们提出了混合过渡层的概念。此层是在空穴传输材料(或电子传输材料)中掺入发光染料构成的,包括提高电子传输性和提高空穴传输性的两种类型。

    We describe the introduction of a mixed-transition layer , consisting of the hole-transporting ( or electron-transporting ) layer doped with the emissive dye , and then sort it by the carrier transporting property & favoring the holes or electrons .

  23. 有机空穴传输材料的成膜性及其薄膜的热稳定性对于提高有机电致发光器件的效率和寿命具有重要的作用。

    In recent years , an amount of research has been directed to the hole-transport materials for use in organic light-emitting diodes ( OLEDs ) in an effort to improve the film forming ability and thermal stability of the materials .

  24. 该类化合物作为有机P型材料(空穴传输型材料),可以在电子器件中得到了广泛的应用。

    These compounds as a organic P type materials ( hole transportation materials ), have been widely used in electronic devices .

  25. 与常规的在电子传输层中掺杂有机染料的掺杂器件相比,本实验是在Alq(电子传输层材料)与NPB(空穴传输层材料)形成的均匀互掺有源层中,再掺杂染料Rubrene。

    As compared with conventional doped device with organic dye as dopant in ETL , Rubrene as dopant in the present experiment is doped into an active layer which is formed by uniformly mutual doping of Alq as material of ETL and NPB as material of HTL .

  26. 空穴传输型材料作为电致发光材料的另一大类发光材料,它的典型化合物为芳胺类化合物如吡唑啉衍生物类荧光化合物,二苯乙烯基化合物则属于电子传输材料。

    Type of material as a hole-transporting electroluminescent material the other categories light-emitting materials , it is typical for the aromatic amines compounds pyrazoline derivatives such as fluorescent compounds . distyryl compounds belong to electron transport materials .

  27. 咔唑环有很强的空穴传输能力,含有咔唑环的空穴传输材料一方面可以降低小分子材料的结晶,提高器件寿命,另一方面增加了电子&空穴复合的机会,提高器件的发光效率。

    Carbazole is characteristic of its excellent hole-transporting ability , which definitely hinder the crystallization process and thus prolong their lifetime values , and meanwhile increase the opportunities of electron-hole complexion to get high enough luminescence efficiency .

  28. 一般芳香胺类化合物由于其具有空穴迁移率高的性能,是特别常用的空穴传输材料。

    General aromatic amines due to its high hole mobility , is particularly common hole transport materials .

  29. 覆盖有IndiumTinOxide(ITO)膜的透明导电玻璃广泛地用作有机发光器件(OLEDs)的空穴注入电极,但是ITO膜的功函数通常与空穴传输材料的最高被占据分子轨道(HOMO)不匹配。

    Indium-tin-oxide ( ITO ) coated glass has been widely used as a hole injection electrode for organic light-emitting devices ( OLEDs ), but the work function of ITO film usually mismatches the highest occupied molecular orbital ( HOMO ) of the hole transport materials .