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http://dx.doi.org/10.5695/JKISE.2017.50.5.398

Electroluminescent Characteristics of Fluorescent OLED with Alternating Current Forward Bias  

Seo, Jung-Hyun (Department of Advanced Materials Science & Engineering, Daejin University)
Ju, Sung-Hoo (Department of Advanced Materials Science & Engineering, Daejin University)
Publication Information
Journal of the Korean institute of surface engineering / v.50, no.5, 2017 , pp. 398-404 More about this Journal
Abstract
In order to study the AC driving mechanism for OLED lighting, the fluorescent OLEDs were fabricated and the electroluminescent characteristics of the OLEDs by AC forward bias were analyzed. In the case of the driving method of OLED by AC forward bias under the same voltage and the same current density, degradation of luminescent characteristics for elapsed time progressed faster than in the case of the driving method by DC bias. These phenomena were caused by the peak voltage of AC forward bias which is ${\sqrt{2}}$ times higher than the DC voltage. In addition, the degradation of the OLED was accelerated because the AC forward bias had come close to the upper limit of the allowable voltage range even though the peak voltage didn't exceed the allowable range of the OLED. However, the fabricated fluorescent OLED showed little degradation of OLED characteristics due to AC forward bias from 0 V to 6.04 V. Therefore, OLED lighting by AC driving will become commercialized if sufficient luminance is realized at a voltage at which the characteristics of the OLED are not degradation by the AC driving method.
Keywords
OLED; Alternating current; Direct current; Forward-bias; Degradation;
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Times Cited By KSCI : 3  (Citation Analysis)
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1 C.W. Tang, S.A. Vanslyke, Organic electroluminescent diodes, Appl. Phys. Lett, 51 (1987) 913-915.   DOI
2 J. Kido, M. Kimura, and K. Nagai, Multilayer white light-emitting organic electroluminescent device, Science, 267 (1995) 1332-1334.   DOI
3 T. Tsuboi, H. Murayama, S. J. Yeh, and C. T. Chen, Energy transfer between organic fluorescent CBP host and blue phosphorescent FIrpic and FIrN4 guests, Opt. Mater., 29 (2007) 1299-1304.   DOI
4 Hyun-Dong Chun, Hyunseok Na, and Sung-Hoo Ju, Emission Properties of White Organic Light-Emitting Diodes with Blue Emitting Layer, J. KIEEME, 26 (2013) 451-456.
5 K. I. Hwu, W. C. Tu and Y. T. Fang, Dimmable AC LED Driver whit efficiency improved based on switched led module, J. display technology, 10 (2014) 171-181.   DOI
6 J. H. Seo, J. H. Kim, and S. H. Ju, Emission Characteristics of Fluorescent OLED with Alternating Current Power Source Driving Method, J. KIEEME, 27 (2014) 104-109.
7 Shuji Nakamura, Takashi Mukai and Masayuki Senoh, Candela-class high-brightness InGaN/AlGaN double-heterostructure blue-light-emitting diodes, Appl. Phys. Lett, 64 (1994) 1687-1689.   DOI
8 T. Tamura, T. Setomoto and T. Taguchi, Illumination characteristics of lighting array using 10 candelaclass white LEDs under AC 100V operation, J. Luminescence, 87 (2000) 1180-1182.
9 N. Ning, T. Zhenxiao. Y. Dejun, W. Shuangyi, C. Wenbin and F. Chunyi, Highly AC voltage fluctuation-resistant LED driver with sinusoid-like reference, J. power electronics, 14 (2014) 257-264.   DOI
10 R. J. Holmes, S. R. Forrest, Y. J. Tung, R. C. Kwong, J. J. Brown, S. Garon, M. E. Thampson, Blue organic electrophosphorescence using exothermic host-guest energy transfer, Appl. Phys. Lett, 82 (2003) 2422-2424.   DOI
11 C.Adachi, M.A. Baldo, S.R. Forest, M.E. Thompson, High-efficiency organic electrophosphorescent devices with tris(2-phenylpyridine)iridium doped into electron-transporting materials, Appl. Phys. Lett. 77 (2000) 904-906.   DOI
12 N.J. Lundin,A.G. Blackman, K.C. Gordon, D.L. Officer, Synthesis and Characterization of a Multicomponent Rhenium(I) Complex for Application as an OLED Dopant, Angew. Chem. Int, Ed 45 (2006) 2582-2584.   DOI
13 T. Xu, M. Yang, J. Liu, X. Wu, I. Murataza and G. He, Wide color-range tunable and low roll-off fluorescent organic light emitting devices based on double undoped ultrathin emitters, Organic Electronics, 37 (2016) 93-99.   DOI
14 C.T. Chen, Y. Wei, J.S. Lin, M. Moturu, W.S. Chao, Y.T. Tao, C.H. Chien, J. Am. Chem, Quinoxaline/Diphenylfluorene Hybrids as Bipolar, Fluorescent Chameleons for Optoelectronic Applications, Soc. 128 (2006) 10992-10993.   DOI