[2] Mengting Lee, Meirurng Tseng. Efficient, long-life and Lambertian source of top emitting white OLEDs using low-reflectivity molybdenum anode and co-doping technology[J]. Current Applied Physics, 2008(8): 616-619.
Mengting Lee, Meirurng Tseng. Efficient, long-life and Lambertian source of top emitting white OLEDs using low-reflectivity molybdenum anode and co-doping technology[J]. Current Applied Physics, 2008(8): 616-619.
[3] JI Wenyu, ZHANG Letian, XU Kai, et al. Semitransparent white organic light-emitting devices with symmetrical electrode structure [J]. Organic Electronics, 2011(12): 2192-2197.
JI Wenyu, ZHANG Letian, XU Kai, et al. Semitransparent white organic light-emitting devices with symmetrical electrode structure [J]. Organic Electronics, 2011(12): 2192-2197.
[8] Book K, Nikitenko V R, B ssler H, et al. Optical detection of charge carriers in multilayer organic light-emitting diodes: Experiment and theory [J]. J.Appl. Phys., 2001, 89 (5): 2690-2698
Book K, Nikitenko V R, B ssler H, et al. Optical detection of charge carriers in multilayer organic light-emitting diodes: Experiment and theory [J]. J.Appl. Phys., 2001, 89 (5): 2690-2698
[9] Kalinowski J, Murata H, Picciolo L C, et al. Voltage evolution of there combination zone and emission quantum yield in organic light-emitting diodes with doped and undoped emitter layers[J]. J.Phys. D: Appl. Phys., 2001, 34(8): 3130-3138
Kalinowski J, Murata H, Picciolo L C, et al. Voltage evolution of there combination zone and emission quantum yield in organic light-emitting diodes with doped and undoped emitter layers[J]. J.Phys. D: Appl. Phys., 2001, 34(8): 3130-3138
[10] ZHENG X Y, WU Y Z, SUN R G, et al. Efficiency improvement of organic light-emiting diodes using 8-hydroxy-quinolinato lithium as an electron injection lay [J]. Thin Solid Films, 2005, 478(33): 252-255.
ZHENG X Y, WU Y Z, SUN R G, et al. Efficiency improvement of organic light-emiting diodes using 8-hydroxy-quinolinato lithium as an electron injection lay [J]. Thin Solid Films, 2005, 478(33): 252-255.
[11] ZHANG Q S, ZHOU Q G, CHENG Y X, et al. Highly Efficient Green Phosphorescent Organic Light-Emitting Diodes Based on CuI complexes[J]. Adv. Mater., 2004(16): 432.
ZHANG Q S, ZHOU Q G, CHENG Y X, et al. Highly Efficient Green Phosphorescent Organic Light-Emitting Diodes Based on CuI complexes[J]. Adv. Mater., 2004(16): 432.
[12] SUN X Y, LI W L, HONG Z R, et al. Investigation of dye-doped red emitting organic electroluminescent devices with metal-mirror microcavity structure[J]. J. Appl. Phys., 2005(97): 109-112.
SUN X Y, LI W L, HONG Z R, et al. Investigation of dye-doped red emitting organic electroluminescent devices with metal-mirror microcavity structure[J]. J. Appl. Phys., 2005(97): 109-112.
[13] Patricia Freitag, Sebastian Reineke, Selina Olthof, et al. White top-emitting organic light-emitting diodes with forward directed emission and high color quality[J]. Organic Electronics, 2010(11): 1676-1682.
Patricia Freitag, Sebastian Reineke, Selina Olthof, et al. White top-emitting organic light-emitting diodes with forward directed emission and high color quality[J]. Organic Electronics, 2010(11): 1676-1682.
[14] MA Jian, PIAO Xuecheng, LIU Jian, et al. Optical simulation and optimization of ITO-free top-emitting white organic light-emitting devices for lighting or display[J]. Organic Electronics,2011(12): 923-935
MA Jian, PIAO Xuecheng, LIU Jian, et al. Optical simulation and optimization of ITO-free top-emitting white organic light-emitting devices for lighting or display[J]. Organic Electronics,2011(12): 923-935
[15] WU Zhijun, ZHAI Yun, GUO Rongxin, et al. Red top-emitting organic light-emitting device with improved efficiency and saturated color[J]. Journal of Luminescence, Journal of Luminescence, 2011(131): 2042–2045.
WU Zhijun, ZHAI Yun, GUO Rongxin, et al. Red top-emitting organic light-emitting device with improved efficiency and saturated color[J]. Journal of Luminescence, Journal of Luminescence, 2011(131): 2042–2045.
