Mechanistic Understanding of Improved Performance of Graphene Cathode Inverted Organic Light-Emitting Diodes by Photoemission and Impedance Spectroscopy

ACS Applied Materials & Interfaces
Jaehyun MoonNam Sung Cho

Abstract

Modification of multilayer graphene films was investigated for a cathode of organic light-emitting diodes (OLEDs). By doping the graphene/electron transport layer (ETL) interface with Li, the driving voltage of the OLED was reduced dramatically from 24.5 to 3.2 V at a luminance of 1000 cd/m2. The external quantum efficiency was also enhanced from 3.4 to 12.9%. Surface analyses showed that the Li doping significantly lowers the lowest unoccupied molecular orbital level of the ETL, thereby reducing the electron injection barrier and facilitating electron injection from the cathode. Impedance spectroscopy analyses performed on electron-only devices (EODs) revealed the existence of distributed trap states with a well-defined activation energy, which is successfully described by the Havriliak-Negami capacitance functions and the temperature-independent frequency dispersion parameters. In particular, the graphene EOD showed a unique high-frequency feature as compared to the indium tin oxide one, which could be explained by an additional parallel capacitance element.

References

Apr 13, 2007·Chemical Reviews·Yasuhiko Shirota, Hiroshi Kageyama
Jun 23, 2009·Science·A K Geim
May 11, 2013·Physical Chemistry Chemical Physics : PCCP·Jaehyun MoonJong-Sook Lee
Mar 1, 2016·Beilstein Journal of Nanotechnology·Peter JuhaszMartin Weis

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