New Solution‐Processable Electron Transport Materials for Highly Efficient Blue Phosphorescent OLEDs
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[1] G. Hughes,et al. Electron-transporting materials for organic electroluminescent and electrophosphorescent devices , 2005 .
[2] Samson A Jenekhe,et al. Solution‐Processed Highly Efficient Blue Phosphorescent Polymer Light‐Emitting Diodes Enabled by a New Electron Transport Material , 2010, Advanced materials.
[3] RESEARCH NOTES: Dimensional considerations for space-charge conduction in solids , 1970 .
[4] Hongbin Wu,et al. High-efficiency, environment-friendly electroluminescent polymers with stable high work function metal as a cathode: green- and yellow-emitting conjugated polyfluorene polyelectrolytes and their neutral precursors. , 2004, Journal of the American Chemical Society.
[5] Kaushik Roy Choudhury,et al. LiF as an n‐Dopant in Tris(8‐hydroxyquinoline) Aluminum Thin Films , 2008 .
[6] Daniel Moses,et al. High‐Efficiency Polymer‐Based Electrophosphorescent Devices , 2002 .
[7] Jian Li,et al. Efficient, deep-blue organic electrophosphorescence by guest charge trapping , 2003 .
[8] Jae Wook Lee,et al. Synthesis and Characterization of Red‐Emitting Iridium(III) Complexes for Solution‐Processable Phosphorescent Organic Light‐Emitting Diodes , 2009 .
[9] Egbert Zojer,et al. Efficient Blue‐Light‐Emitting Polymer Heterostructure Devices: The Fabrication of Multilayer Structures from Orthogonal Solvents , 2010, Advanced materials.
[10] J. Kido,et al. Wide-Energy-Gap Electron-Transport Materials Containing 3,5-Dipyridylphenyl Moieties for an Ultra High Efficiency Blue Organic Light-Emitting Device , 2008 .
[11] Ken-Tsung Wong,et al. Highly Efficient Organic Blue Electrophosphorescent Devices Based on 3,6‐Bis(triphenylsilyl)carbazole as the Host Material , 2006 .
[12] Junji Kido,et al. Structure–Property Relationship of Pyridine‐Containing Triphenyl Benzene Electron‐Transport Materials for Highly Efficient Blue Phosphorescent OLEDs , 2009 .
[13] B. Liu,et al. Blue-light-emitting cationic water-soluble polyfluorene derivatives with tunable quaternization degree , 2002 .
[14] S. Jenekhe,et al. Efficient blue luminescence of a conjugated polymer exciplex , 1994 .
[15] S. Jenekhe,et al. Electroluminescence and Photophysical Properties of Polyquinolines , 1999 .
[16] Lei Wang,et al. Highly Efficient and Color‐Stable Deep‐Blue Organic Light‐Emitting Diodes Based on a Solution‐Processible Dendrimer , 2009, Advanced materials.
[17] S. Jenekhe,et al. Excimers and Exciplexes of Conjugated Polymers , 1994, Science.
[18] S. Jenekhe,et al. New conjugated polyanthrazolines containing thiophene moieties in the main chain , 1991 .
[19] Benjamin Claus Krummacher,et al. Recent progress in solution processable organic light emitting devices , 2007 .
[20] S. Jenekhe,et al. Highly Efficient Phosphorescent Light-Emitting Diodes by Using an Electron-Transport Material with High Electron Affinity , 2009 .
[21] F. So,et al. High-Efficiency Blue Emitting Phosphorescent OLEDs , 2010, IEEE Transactions on Electron Devices.
[22] Gregor Schwartz,et al. White organic light-emitting diodes with fluorescent tube efficiency , 2009, Nature.
[23] A. P. Kulkarni,et al. Blue‐Light‐Emitting Oligoquinolines: Synthesis, Properties, and High‐Efficiency Blue‐Light‐Emitting Diodes , 2007 .
[24] J. Kido,et al. Influence of Substituted Pyridine Rings on Physical Properties and Electron Mobilities of 2‐Methylpyrimidine Skeleton‐Based Electron Transporters , 2011 .
[25] Maksudul M. Alam,et al. New Soluble n‐Type Conjugated Copolymer for Light‐Emitting Diodes , 2002 .
[26] S. Jenekhe,et al. Electrochemical Properties and Electronic Structures of Conjugated Polyquinolines and Polyanthrazolines , 1996 .
[27] Donal D. C. Bradley,et al. Space-charge limited conduction with traps in poly(phenylene vinylene) light emitting diodes , 1997 .
[28] Katsutoshi Nagai,et al. Multilayer White Light-Emitting Organic Electroluminescent Device , 1995, Science.
[29] Ying Zheng,et al. Efficient deep-blue phosphorescent organic light-emitting device with improved electron and exciton confinement , 2008 .
[30] Yun Chi,et al. New Dopant and Host Materials for Blue‐Light‐Emitting Phosphorescent Organic Electroluminescent Devices , 2005 .
[31] Ta-Ya Chu,et al. Hole mobility of N,N′-bis(naphthalen-1-yl)-N,N′-bis(phenyl) benzidine investigated by using space-charge-limited currents , 2007 .
[32] Ruth E. Harding,et al. High-triplet-energy dendrons: enhancing the luminescence of deep blue phosphorescent iridium(III) complexes. , 2009, Journal of the American Chemical Society.
[33] S. Jenekhe,et al. n-Type Conjugated Dendrimers: Convergent Synthesis, Photophysics, Electroluminescence, and Use as Electron-Transport Materials for Light-Emitting Diodes , 2004 .
[34] S. Jenekhe,et al. Polybenzobisazoles are efficient electron transport materials for improving the performance and stability of polymer light-emitting diodes , 2002 .
[35] Abhishek P. Kulkarni,et al. Electron Transport Materials for Organic Light-Emitting Diodes , 2004 .
[36] Efficient Electron Injection Characteristics of Triazine Derivatives for Transparent OLEDs (TOLEDs) , 2004 .
[37] S. Jenekhe,et al. Electroluminescence of Multicomponent Conjugated Polymers. 2. Photophysics and Enhancement of Electroluminescence from Blends of Polyquinolines , 2002 .
[38] Xue-Yin Jiang,et al. Electron mobility of 4,7-diphyenyl-1,10-phenanthroline estimated by using space-charge-limited currents , 2008 .
[39] New Soluble n-Type Conjugated Polymers for Use as Electron Transport Materials in Light-Emitting Diodes , 2004 .
[40] A. Kahn,et al. Molecular‐Level Offset at the PTCDA/Alq3 Heterojunction , 1998 .
[41] S. Jenekhe,et al. Thiophene-Linked Polyphenylquinoxaline: A New Electron Transport Conjugated Polymer for Electroluminescent Devices , 1999 .
[42] J. Kido,et al. Highly Efficient Green Phosphorescent OLED Based on Pyridine-containing Starburst Electron-transporting Materials , 2010 .
[43] A. Arias,et al. Materials and applications for large area electronics: solution-based approaches. , 2010, Chemical reviews.
[44] A. Mikhailovsky,et al. Solvent Effects on the Architecture and Performance of Polymer White‐Light‐Emitting Diodes with Conjugated Oligoelectrolyte Electron‐Transport Layers , 2009, Advanced materials.
[45] Zhenan Bao,et al. Halogenated Materials as Organic Semiconductors , 2011 .
[46] Stephen R. Forrest,et al. Improved energy transfer in electrophosphorescent devices , 1999 .
[47] Paul E. Burrows,et al. Organic Light-Emitting Devices for Solid-State Lighting , 2008 .
[48] F. So,et al. High efficiency blue phosphorescent organic light-emitting device , 2008 .
[49] Xiao Hui Yang,et al. Blue polymer electrophosphorescent devices with different electron-transporting oxadiazoles , 2006 .
[50] S. Forrest,et al. Highly efficient phosphorescent emission from organic electroluminescent devices , 1998, Nature.
[51] W. R. Salaneck,et al. Electroluminescence in conjugated polymers , 1999, Nature.
[52] Tatsuo Mori,et al. Electroluminescent Properties in Organic Light-Emitting Diode Doped with Two Guest Dyes , 2001 .
[53] X. Jing,et al. Solution‐Processable Carbazole‐Based Conjugated Dendritic Hosts for Power‐Efficient Blue‐Electrophosphorescent Devices , 2009, Advanced materials.
[54] E. List,et al. Intrinsic electrochemical doping in blue light emitting polymer devices utilizing a water soluble anionic conjugated polymer , 2007 .
[55] Stephen R. Forrest,et al. The path to ubiquitous and low-cost organic electronic appliances on plastic , 2004, Nature.
[56] Ruth E. Harding,et al. Solution‐Processible Phosphorescent Blue Dendrimers Based on Biphenyl‐Dendrons and Fac‐tris(phenyltriazolyl)iridium(III) Cores , 2008 .
[57] Bo Qu,et al. Recent Progresses on Materials for Electrophosphorescent Organic Light‐Emitting Devices , 2011, Advanced materials.
[58] A New Synthetic Route to Soluble Polyquinolines with Tunable Photophysical, Redox, and Electroluminescent Properties , 2005 .
[59] Chen‐Han Chien,et al. Phosphine-Oxide-Containing Bipolar Host Material for Blue Electrophosphorescent Devices , 2009 .