Electrical characterization of ITO/CuPc/Al diodes using temperature dependent capacitance spectroscopy and I– V measurements

Electrical characterization of ITO/CuPc/Al diodes using temperature dependent capacitance spectroscopy and I– V measurements

Sandwich structures were prepared by vacuum sublimation of 100 nm thick CuPc thin films between ITO and Al electrodes. The rectifying behavior of these devices was analyzed with dc electrical measurements as a function of temperature in the range 100–310 K. Different regimes were observed with tempe...

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Veröffentlicht in:Journal of non-crystalline solids 2004-01, Vol.338 (Complete), p.599-602
Hauptverfasser: Reis, F.T., Mencaraglia, D., Ould Saad, S., Séguy, I., Oukachmih, M., Jolinat, P., Destruel, P.
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container_end_page 602
container_issue Complete
container_start_page 599
container_title Journal of non-crystalline solids
container_volume 338
creator Reis, F.T.
Mencaraglia, D.
Ould Saad, S.
Séguy, I.
Oukachmih, M.
Jolinat, P.
Destruel, P.
description Sandwich structures were prepared by vacuum sublimation of 100 nm thick CuPc thin films between ITO and Al electrodes. The rectifying behavior of these devices was analyzed with dc electrical measurements as a function of temperature in the range 100–310 K. Different regimes were observed with temperature and bias dependent transition. At low bias and high temperature, the results are best explained with Poole–Frenkel type transport model, while at high bias and low temperature, space charge limited current controlled by an exponential distribution of traps dominates the transport. Electrically active defects were investigated with space charge capacitance spectroscopy, as a function of temperature and frequency. The analysis of the capacitance data shows that the CuPc layer exhibits a rather high density of localized states at Fermi level. These results are discussed and compared with those of the temperature dependent J– V measurements.
doi_str_mv 10.1016/j.jnoncrysol.2004.03.050
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title Electrical characterization of ITO/CuPc/Al diodes using temperature dependent capacitance spectroscopy and I– V measurements
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