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cupc

  • 网络酞菁铜;铜酞菁;酞菁
cupccupc
  1. Studies on Preparation and characteristics of cupc / Y Zeolites

    CuPc/Y分子筛制备与性能的研究

  2. Preparation and Characteristics of CuPc / H_2PtCl_6 Based Organic Semiconductor Poisonous Gas Sensor

    CuPc/H2PtCl6有机半导体毒气传感器的制备与性能

  3. Overlapping Gaussian Distributed Traps in α - CuPc / PVK Thin Film

    α-CuPc/PVK薄膜中的高斯分布陷阱

  4. Preparation and Photoconductive Properties of CuPc / ZnS Multilayered Films

    CuPc/ZnS多层复合薄膜的制备及光电性能的研究

  5. The CuCl_2 / CuPc sensor based on MEMS nanophase-pore Al_2O_3 base plate and its mechanism study

    基于MEMS纳米孔Al2O3基板的CuCl2/CuPc传感器及机理研究

  6. Fabrication and Characteristics Test of ITO / CuPc / Alq_3 / Al Organic Light-emitting Diodes

    ITO/CuPc/Alq3/Al有机发光二极管的制备与特性测试

  7. Studies on photovoltaic effects of CuPc / CdS and H_2 Pc / CdS heterojunctions

    酞菁、酞菁铜/硫化镉异质结的光伏效应的研究

  8. Phthalocyanine copper ( CuPc ) - Fe 3O 4 nanoparticles composites were prepared .

    制备了酞菁铜(CuPc)-Fe3O4纳米复合粒子,分析了CuPc与Fe3O4纳米粒子的复合过程,提出了其复合机理。

  9. We successfully prepared a good CuPc / C60device performance of organic heterojunction thin-film transistors .

    我们成功的制备出了器件性能较好的CuPc/C60有机异质结薄膜晶体管。

  10. Optoelectronic Properties of Vacuum-Sublimated CuPc / ZnS Multilayer Film

    CuPc/ZnS多层复合薄膜的光电性能研究

  11. CuPc was dissolved by the method of Lewis acid complexation-mediated solubilization ( LAPS ), whose mechanism was discussed .

    用路易斯酸配位法溶解了铜酞菁,并对其溶解机理进行了简单探讨。

  12. Copper phthalocyanine ( CuPc ) and lead phthalocyanine ( PbPc ) composite films were prepared by vacuum co evaporation .

    本文通过真空共蒸发制备了酞菁铜酞菁铅复合膜。

  13. Surface analysis of LiBq_4 / ITO and LiBq_4 / CuPc / ITO using atomic force microscopy and x-ray photoelectron spectroscopy

    原子力显微镜与x射线光电子能谱对LiBq4/ITO和LiBq4/CuPc/ITO的表面分析

  14. Copper-phthalocyanine ( CuPc ) films were grown on ITO coated glass substrates by vacuum sublimation at different substrate temperatures .

    为研究衬底温度对酞菁铜(CuPc)薄膜的结构、光学及光电导性能的影响,文中采用真空热蒸发方法制备了不同衬底温度的CuPc薄膜。

  15. The I-V characteristics and isothermal decay currents ( IDC ) of α - CuPc / PVK .

    研究了α-CuPc/PVK体系的伏安特性及等温衰减电流(IDC)。

  16. Comparing the above with the heating cord the result suggests that the former can reduce energy cost , shorten reaction time and raise yiehl of product CuPc .

    结果表明,使用远红外加热反应器节能、省时,而且能提高反应产率。

  17. The SERS signal of C60_doping CuPc indicates that an intermolecular complex due to charge transfer interaction may be formed between C60 and CuPc .

    对C60掺杂酞菁铜的表面增强拉曼光谱(SERS)研究显示,C60与酞菁铜之间生成了电荷转移较小、结构比较松散的分子间电荷转移复合物。

  18. The linear absorption spectrum of copper phthalocyanine ( CuPc ) thin film was measured , and the third order nonlinear optical susceptibility χ ( 3 ) was studied as well .

    研究了酞菁铜薄膜的吸收光谱和飞秒三阶非线性光学极化率χ(3)。

  19. The organic EL digital display element with the ITO / CuPc / TPD / Alq 3 / MgAg structure has been reported .

    用改进的电子束蒸发系统制作了结构为ITO/CuPc/TPD/Alq3/MgAg的有机EL数码显示器件,并对器件进行了实用化封装。

  20. The Cu / CuPc that form ohmic contact act as anode of the devices , CuPc / Al that form Schottky contact act as the cathode .

    其中Cu/CuPc形成欧姆接触做阳极,CuPc/Al形成肖特基接触做阴极。

  21. Copper-phthalocyanine ( CuPc ) was chose as the organic layer because it is a typical organic photoelectric semiconductor with high absorption coefficient and wide absorption spectrum in visible region .

    酞菁铜(CuPc)是典型的有机光电半导体材料,在可见光区不仅吸收范围宽、吸收系数大,且具有较好的耐高温性能。

  22. The static induction transistor with Schottky gate and sandwich structure of Au / CuPc / Al / CuPc / Au using organic semiconductor material copper phthalocyanine was discussed .

    介绍了由有机半导体材料酞菁铜制作的具有Au/CuPc/Al/CuPc/Au三明治结构的肖特基型栅极有机静电感应三极管。

  23. The relation ship between operation characteristics and structure of a schottky type gate electrode organic static induction transistor with Au / CuPc / Al / CuPc / Au sandwich structure is analyzed .

    根据Au/CuPc/Al/CuPc/Au三明治结构的肖特基型栅极有机静电感应三极管的测试结果,分析了该三极管动作特性与器件结构的关系。

  24. The devices that were fabricated on the glass organic used semiconductor materials copper phthalocyanine ( CuPc ) as the sensitive layer , and the structure consists of Cu / CuPc / Al layers .

    所制备器件采用有机半导体材料酞菁铜(CuPc)作为敏感层,其结构包括Cu/CuPc/Al三层,器件制备在玻璃基板上面。

  25. The solvent is no strange odour , no corrosion , no toxicity , antioxidization , low price and easy recovery , CuPc had been obtained with high quality in98 % yield .

    该溶剂具有无怪味、无毒、无腐蚀、抗氧化、价格低、易再生可循环利用等优点。用它作溶剂可制得高质量、高收率的铜酞菁,收率达98%。

  26. ( 4-tert ) CuPc was synthesized and its optical properties were also investigated . NIR-OLEDs were fabricated employing ( 4-tert ) CuPc as phosphorescent emitter and the device structures were optimized . The device emitted light around 1110 nm .

    合成了四取代铜酞菁(4-tert)CuPc,研究了其光学性质,并以其为发光材料制备了发射波长在1110nm附近的有机近红外电致磷光器件,优化了器件结构。

  27. 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 .

    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。