The interface between layered conjugated polymer and electrode is a most important factor to improve the performance and lifetime of polymeric light-emitting devices (PLEDs). In this work, a blue PLED with improved stability was achieved by the combination of optimized cathode structure as well as thermal treatment of light-emitting polymer (LEP). Experimental evidence of the initial luminance “settling in” stage was found to be dependent upon the cathode structure, while the long-term slope of luminance as a function of elapsed time is governed by the annealing conditions. Our study revealed the importance of extrinsic design of device for the improvement of PLED stability. Experimental data shows that a blue PLED annealed at 170°C and 6nm LiF at LiFCaAl cathode retained the best lifetime, which can be explained by the improved polymer–metal interface and LEP’s charge mobility.

Topics
Electrical properties and parameters, Annealing, Materials heat treatment, Atomic force microscopy, Polymers, Spin coating, Thin films, Light emitting diodes, Optical metrology, Chemical compounds
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© 2004 American Institute of Physics.
2004
American Institute of Physics
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