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Electrical properties of Copper(II) phthalocyanine derivative thin films

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Abstract

This paper reports an investigation on the electrical properties of thin film devices made by Copper(II) phthalocyanine derivative and polycarbonate (PC) composite. The conducting and injection mechanism are further discussed. Materials of a variety composition were prepared into the thin film via spin-coating. ITO and aluminum were used as the bottom and top electrode respectively. J-V characteristic was measured and the result demonstrates that at a small bias region an Ohmic contact was achieved. As the forward bias increased, the current became space charge limited. The result of AC impedance measurement indicates the device could be equivalent to a parallel RC system. The introduction of PC into the CuPc possibly reduces the charge overlapping between the aromatic rings and led to a reduction in the molecular interaction. Hence, the ac conductivity decreases sharply as PC composition increases. But no change in the transport mechanism is found.

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Authors and Affiliations

  1. Key Laboratory of Luminescence and Optical Information, Ministry of Education, Institute of Optoelectronic Technology, Beijing Jiaotong University, Beijing, 100044, China

    Wang Ting-ting, He Zhi-qun, Zheng Xiao-pan, Wang Yong-sheng, Zhang Chun-xiu & Zhang Wen-guan

  2. Lab of Printing & Packaging Material and Technology-Beijing Area Major Laboratory, Beijing Institute of Graphic Communication, Beijing, 102600, China

    Zhang Chun-xiu & Zhang Wen-guan

Authors
  1. Wang Ting-ting
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  2. He Zhi-qun
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  3. Zheng Xiao-pan
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  4. Wang Yong-sheng
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  5. Zhang Chun-xiu
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  6. Zhang Wen-guan
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Additional information

This work is supported by National Natural Science Foundation of China (20674004 and 10434030), State Key Program for Basic Research of China (2003CB314707), and Lab of Printing & Packaging Material & Technology-Beijing Area Major Laboratory, Open project (KF060303).

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Wang, Tt., He, Zq., Zheng, Xp. et al. Electrical properties of Copper(II) phthalocyanine derivative thin films. Optoelectron. Lett. 3, 43–46 (2007). https://doi.org/10.1007/s11801-007-6141-0

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  • DOI: https://doi.org/10.1007/s11801-007-6141-0

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