光电导材料

  • 网络photoconductive material
光电导材料光电导材料
  1. 在光电导材料和光折射材料等领域,C(60)掺杂型高分子有很好的应用前景。

    C ( 60 ) - doped polymers can be applied in photoconductive materials , photorefractive materials , and so on .

  2. 聚乙烯咔唑(PVK)作为咔唑类聚合物中较重要的一种聚合物,由于具有较好的空穴传输能力,被广泛应用于有机光电导材料和光折变材料中。

    Poly ( N-vinylcarbazole ) ( PVK ) as the more important polymer of carbazole polymers , is widely used as organic photoelectronic functional materials and photorefractive materials due to its good hole transmitting capacity .

  3. 高量子效率有机光电导材料的研究

    Study of Organic Photoreceptor with High Quantum Efficiency

  4. 有机复合光电导材料及其单层光导体的研究电泵浦有机半导体激光器的关键技术

    The Studies of Organic Semiconductive Composites and Their Single-layered Photoreceptors ; Key Techniques in Electrically Pumped Organic Semiconductor Laser

  5. 有机光电导材料已经成为信息社会不可或缺的高技术材料之一。

    Organic photoconductive materials have become one of the high-tech materials that are needed in the modern information society .

  6. 为开发新型聚合物光电导材料在理论和应用方面提供科学的依据。

    The research provided scientific basis for the development of new photoconductivity polymer in the theory and the application aspects .

  7. C(60)-PNVC光电导功能材料的形态与结构研究

    Studies on the Morphology and Structure of C_ ( 60 ) - modified Poly-N-vinylcarbazole

  8. 有机光电导(OPC)材料分子设计的研究

    Study on the Molecular Design of Organic Photoconductive Materials

  9. 聚乙烯咔唑(PVK)由于其优良的光电导特性,成为研究最充分的聚合物光电导材料,但其存在玻璃化转变温度高,成膜性差、脆性大等缺点,大大限制了其研究及应用。

    PVK with fine photoconductive characteristics is considered as the most adequately studied organic photoconductive materials . It has many shortcomings such as the high Tg , the poor film forming , great brittleness . So it greatly limits its research and application .

  10. 咔唑类聚合物具有良好的光电性能,在有机光电功能材料方面具有广阔的应用前景,它作为光电导材料的研究已成为热点,如有机光折变材料和光电照相材料等。

    Carbazole polymers having good photoelectric properties are widely used as organic photoelectronic functional materials . The research on carbazole polymers used in photoelectric materials has become hot spot , such as organic photorefractive material and photoelectric photographic materials , et al .