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NTIS 바로가기Journal of display technology, v.6 no.7, 2010년, pp.247 - 251
Jongwoon Park (Nat. Center for Nanoprocess & Equip., Korea Inst. of Ind. Technol., Gwangju, South Korea) , Jongho Lee (Nat. Center for Nanoprocess & Equip., Korea Inst. of Ind. Technol., Gwangju, South Korea) , Dongchan Shin (Dept. of Adv. Mater. Eng., Chosun Univ., Gwangju, South Korea)
We demonstrate that power recycling is feasible by merging a large-area (30 ×120 mm2) OLED panel and a solar cell into each other. The power recycling efficiency of 0.152% is achieved under the illumination of one side-emitting white OLED at 2450 cd/m2 when the conversion efficiency of a refe...
Deshpande, R. S., Bulović, V., Forrest, S. R.. White-light-emitting organic electroluminescent devices based on interlayer sequential energy transfer. Applied physics letters, vol.75, no.7, 888-890.
Yang, Su-Hua, Liu, Mine-Huang, Su, Yan-Kuin. Stable and highly bright white organic light-emitting diode based on 4,4′,4″-tris(N-3-methylphenyl-N-phenyl-amino)-triphenylamine. Journal of applied physics, vol.100, no.8, 083111-.
Proc SPIE development of high performance oleds kido 2008 7051 705169
LEDs Mag osram transparent oled offers high efficacy 2007
Yang, Chih-Jen, Cho, Ting-Yi, Lin, Chun-Liang, Wu, Chung-Chih. Organic light-emitting devices integrated with solar cells: High contrast and energy recycling. Applied physics letters, vol.90, no.17, 173507-.
Jongwoon Park, Jongho Lee, Dongchan Shin, Seounghwan Park. Luminance Uniformity of Large-Area OLEDs With an Auxiliary Metal Electrode. Journal of display technology, vol.5, no.8, 306-311.
The Physics of Solar Cells nelson 2007
Kanno, Hiroshi, Giebink, Noel C., Sun, Yiru, Forrest, Stephen R.. Stacked white organic light-emitting devices based on a combination of fluorescent and phosphorescent emitters. Applied physics letters, vol.89, no.2, 023503-.
Cheng, Gang, Li, Feng, Duan, Yu, Feng, Jing, Liu, Shiyong, Qiu, Song, Lin, Dong, Ma, Yuguang, Lee, S. T.. White organic light-emitting devices using a phosphorescent sensitizer. Applied physics letters, vol.82, no.24, 4224-4226.
Kanno, Hiroshi, Sun, Yiru, Forrest, Stephen R.. White organic light-emitting device based on a compound fluorescent-phosphor-sensitized-fluorescent emission layer. Applied physics letters, vol.89, no.14, 143516-.
Cheng, Gang, Zhang, Yingfang, Zhao, Yi, Liu, Shiyong, Ma, Yuguang. Improved efficiency for white organic light-emitting devices based on phosphor sensitized fluorescence. Applied physics letters, vol.88, no.8, 083512-.
Li, G., Shinar, J.. Combinatorial fabrication and studies of bright white organic light-emitting devices based on emission from rubrene-doped 4,4′-bis(2,2′-diphenylvinyl)-1,1′-biphenyl. Applied physics letters, vol.83, no.26, 5359-5361.
Appl Phys Lett highly efficient white organic light emitting diodes comprising an interlayer to separate fluorescent and phosphorescent regions schwartz 2006 10.1063/1.2338588 89 83509-1-3
Sun, Yiru, Giebink, Noel C., Kanno, Hiroshi, Ma, Biwu, Thompson, Mark E., Forrest, Stephen R.. Management of singlet and triplet excitons for efficient white organic light-emitting devices. Nature, vol.440, no.7086, 908-912.
Service, Robert F.. Organic LEDs Look Forward to a Bright, White Future. Science, vol.310, no.5755, 1762-1763.
Cheon, K. O., Shinar, J.. Bright white small molecular organic light-emitting devices based on a red-emitting guest-host layer and blue-emitting 4,4′-bis(2,2′-diphenylvinyl)-1,1′-biphenyl. Applied physics letters, vol.81, no.9, 1738-1740.
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