Doping Effects on the Series Resistance of Conducting Polymers Diode(Nano-interfacial Properties)(<Special Section>Recent Progress of Organic Molecular Electronics)
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概要
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A device structure for polymer Schottky diode, which has the glass chimney as a dopant reservoir enabling the reduction of series resistance without cathode corrosion, has been proposed. Doping with the acetonitrile solution of FeCl_3 in the device resulted in the increase in the forward-bias current by one order of magnitude without notable increase in reverse-bias current, suggesting that the doping reduced the series resistance. It is found that the penetration speed depends on the solvents. Short time doping with the nitromethane solution of Feds resulted in the increase by three orders of magnitude. However, doping for a long period yielded the considerable increase in the reverse-bias current due to the complete penetration of dopatn solution. When the upper opening of glass chimney of device is left opened and the sample after doping stored in air, the forward-bias current of the device reduced rapidly due to the undoping and/or degradation of polymer. It is possible to protect the degradation of device characteristics after doping, by sealing the chimney and storing the device in vacuum.
- 社団法人電子情報通信学会の論文
- 2004-02-01
著者
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Wada M
Division Of Electrical Engineering Himeji Institute Of Technology
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TADA Kazuya
Division of Electrical Engineering, University of Hyogo
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ONODA Mitsuyoshi
Division of Electrical Engineering, University of Hyogo
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Tada Kazuya
Division Of Electrical Engineering Graduate School Of Engineering University Of Hyogo
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Onoda Mitsuyoshi
Division Of Electrical Engineering Graduate School Of Engineering University Of Hyogo
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WADA Masayuki
Division of Electrical Engineering, Himeji Institute of Technology
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