A New Conducting Polymer Electrode for Organic Electroluminescence Devices
QU Shu1,2, PENG Jing-Cui1
1School of Physics and Microelectronic, Hunan University, Changsha 4100822Department of Physics and Electronic Information, Hunan Institute of Science and Technology, Yueyang 414006
A New Conducting Polymer Electrode for Organic Electroluminescence Devices
QU Shu1,2, PENG Jing-Cui1
1School of Physics and Microelectronic, Hunan University, Changsha 4100822Department of Physics and Electronic Information, Hunan Institute of Science and Technology, Yueyang 414006
摘要Conducting polymer polydimethylsiloxane (PDMS) is studied for the high performance electrode of organic electroluminescence devices. A method to prepare the electrode consisting of a SiC thin film and PDMS is investigated. By using ultra thin SiC films with different thicknesses, the organic electroluminescence devices are obtained in an ultra vacuum system with the model device PDMS/SiC/PPV/Alq3, where PPV is poly para-phenylene vinylene and Alq3 is tris(8-hydroxyquinoline) aluminium. The capacitance--voltage (C-V), capacitance--frequency (C-F), current--voltage (I-V), radiation intensity--voltage (R-V) and luminance efficiency--voltage (E-V) measurements are systematically studied to investigate the conductivity, Fermi alignment and devices properties in organic semiconductors. Scanning Kelvin probe measurement shows that the work function of PDMS/SiC anode with a 2.5-nm SiC over layer can be increased by as much as 0.28eV, compared to the conventional ITO anode. The result is attributed to the charge transfer effect and ohmic contacts at the interface.
Abstract:Conducting polymer polydimethylsiloxane (PDMS) is studied for the high performance electrode of organic electroluminescence devices. A method to prepare the electrode consisting of a SiC thin film and PDMS is investigated. By using ultra thin SiC films with different thicknesses, the organic electroluminescence devices are obtained in an ultra vacuum system with the model device PDMS/SiC/PPV/Alq3, where PPV is poly para-phenylene vinylene and Alq3 is tris(8-hydroxyquinoline) aluminium. The capacitance--voltage (C-V), capacitance--frequency (C-F), current--voltage (I-V), radiation intensity--voltage (R-V) and luminance efficiency--voltage (E-V) measurements are systematically studied to investigate the conductivity, Fermi alignment and devices properties in organic semiconductors. Scanning Kelvin probe measurement shows that the work function of PDMS/SiC anode with a 2.5-nm SiC over layer can be increased by as much as 0.28eV, compared to the conventional ITO anode. The result is attributed to the charge transfer effect and ohmic contacts at the interface.
2008, Vol. 25 
