60.1: Invited Paper: Tandem Hybrid White OLED Devices with Improved Light Extraction
暂无分享,去创建一个
William James Begley | Yuan-Sheng Tyan | YuanQiao Rao | Raymond Kesel | Thomas Richard Cushman | Xiaofan Ren | N. Bhandari | Y. Tyan | Y. Rao | Xiaofan Ren | W. Begley | T. R. Cushman | Raymond Kesel | Nikhil Bhandari
[1] Hiroshi Fujiwara,et al. p‐i‐n like behavior in three‐layered organic solar cells having a co‐deposited interlayer of pigments , 1992 .
[2] Chun-Sing Lee,et al. Effective organic-based connection unit for stacked organic light-emitting devices , 2006 .
[3] John E. Ludwicki,et al. 52.1: System Design for a High Color‐Gamut TV‐Sized AMOLED Display , 2007 .
[4] William James Begley,et al. 54.2: Tandem White OLEDs Combining Fluorescent and Phosphorescent Emission , 2008 .
[5] Chun-Sing Lee,et al. Influences of Connecting Unit Architecture on the Performance of Tandem Organic Light‐Emitting Devices , 2007 .
[6] Yuan-Sheng Tyan,et al. P-173: Reduction of Shorting Defects in OLED Devices , 2007 .
[7] Kristiaan Neyts,et al. 36.5: Late-News Paper: The Light Distribution in OLEDs and Ways to Increase the Light Outcoupling Efficiency , 2008 .
[8] Tetsuo Tsutsui,et al. Electric field-assisted bipolar charge spouting in organic thin-film diodes , 2004 .
[9] Tae-Woo Lee,et al. High-efficiency stacked white organic light-emitting diodes , 2008 .
[10] Christoph J. Brabec,et al. Photovoltaic properties of conjugated polymer/methanofullerene composites embedded in a polystyrene matrix , 1999 .
[11] William James Begley,et al. 61.2: Fluorescent White OLED Devices with Improved Light Extraction , 2008 .
[12] Benjamin Claus Krummacher,et al. General method to evaluate substrate surface modification techniques for light extraction enhancement of organic light emitting diodes , 2006 .
[13] Jan Birnstock,et al. PIN OLEDs — Improved structures and materials to enhance device lifetime , 2008 .
[14] Jenn‐Fang Chen,et al. Highly efficient white organic electroluminescent devices based on tandem architecture , 2005 .
[15] Tetsuo Tsutsui,et al. Electric-field-assisted bipolar charge generation from internal charge separation zone composed of doped organic bilayer , 2007 .
[16] Stephen R. Forrest,et al. White Stacked Electrophosphorescent Organic Light‐Emitting Devices Employing MoO3 as a Charge‐Generation Layer , 2006 .
[17] Shunpei Yamazaki,et al. P‐185: Low‐Drive‐Voltage OLEDs with a Buffer Layer Having Molybdenum Oxide , 2006 .
[18] Tatsuya Sasaoka,et al. 13.1: Invited Paper: Technological Evolution for Large Screen Size Active Matrix OLED Display , 2007 .
[19] Ching Wan Tang,et al. High-efficiency tandem organic light-emitting diodes , 2004 .
[20] Dong-Seok Leem,et al. Highly efficient tandem p-i-n organic light-emitting diodes adopting a low temperature evaporated rhenium oxide interconnecting layer , 2008 .
[21] Tukaram K. Hatwar,et al. 8.2: Development of Tandem White Architecture for Large-Sized AMOLED Displays with Wide Color Gamut , 2007 .
[22] David J. Giesen,et al. P‐210: Phosphorescence Ranging from Blue to Red from tris‐Cyclometalated Iridium (III) Complexes and Application to Organic Light‐Emitting Devices , 2008 .
[23] Chun-Sing Lee,et al. Copper hexadecafluorophthalocyanine and copper phthalocyanine as a pure organic connecting unit in blue tandem organic light-emitting devices , 2007 .
[24] Yuji Hamada,et al. High Efficiency Stacked Organic Light-Emitting Diodes Employing Li2O as a Connecting Layer , 2006 .
[25] Kevin P. Klubek,et al. Power efficiency improvement in a tandem organic light-emitting diode , 2008 .