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Substrate thermal conductivity effect on heat dissipation and lifetime improvement of organic light-emitting diodes
1.X. Zhou, J. He, L. S. Liao, M. Lu, X. M. Ding, X. Y. Hou, X. M. Zhang, X. Q. He, and S. T. Lee, Adv. Mater. (Weinheim, Ger.) 12, 265 (2000).
10.G. B. Levy, W. Evans, J. Ebner, P. Farrell, M. Hufford, B. H. Allison, D. Wheeler, H. Lin, O. Prache, and E. Naviasky, IEEE J. Solid-State Circuits 37, 1879 (2002).
13.A. Chwang, R. Hewitt, K. Urbanik, J. Silvernail, K. Rajan, M. Hack, J. Brown, J. P. Lu, C. Shih, J. Ho, R. Street, T. Ramos, L. Moro, N. Rutherford, K. Tognoni, B. Anderson, and D. Huffman, SID Int. Symp. Digest Tech. Papers 37, 1858 (2006).
14.T. K. Chuang, M. Traoccoli, P. C. Kuo, A. Jamshidi-Roudbari, M. K. Hatalis, I. Biaggio, and A. T. Voutsas, Appl. Phys. Lett. 90, 151114 (2007).
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We report substrate thermal conductivity effect on heat dissipation and lifetime improvement of organic light-emitting diodes(OLEDs). Heat dissipation behavior of top-emission OLEDs fabricated on silicon, glass, and planarized stainless steel substrates was measured by using an infrared camera. Peak temperaturemeasured from the backside of each substrate was saturated to be 21.4, 64.5, and , 180 s after the OLED was operated at luminance of and 80% luminance lifetime was about 198, 31, and 96 h, respectively. Efficient heat dissipation through the highly thermally conductive substrates reduced temperature increase, resulting in much improved OLED lifetime.
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