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Molecular Crystals and Liquid Crystals Science and Technology. Section A. Molecular Crystals and Liquid Crystals Volume 280, 1996 - Issue 1
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Session VI: EL Materials and Devices

Organic Electroluminescent Devices Using Novel Starburst Molecules, 1,3,5-Tris[4-(3-Methylphenyl-Phenylamino)Phenyl]Benzene And 4,4′,4″-Tris(3-Methyl-Phenylphenylamino)Triphenylamine, as Hole-Transport Materials

Hiroshi Inada Department of Applied Chemistry, Faculty of Engineering, Osaka University, Yamadaoka, Suita, Osaka, 565, Japan
,
Yoshinobu Yonemoto Corporate R & D Laboratory, Pioneer Electronic Corporation, Fujimi, Tsurugashima, Saitama, 350-02, Japan
,
Takeo Wakimoto Corporate R & D Laboratory, Pioneer Electronic Corporation, Fujimi, Tsurugashima, Saitama, 350-02, Japan
,
Kunio Imai Corporate R & D Laboratory, Pioneer Electronic Corporation, Fujimi, Tsurugashima, Saitama, 350-02, Japan
&
Yasuhiko Shirota Department of Applied Chemistry, Faculty of Engineering, Osaka University, Yamadaoka, Suita, Osaka, 565, Japan
Pages 331-336 | Published online: 04 Oct 2006

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Mari Ishihara, Kenji Okumoto, Toshimitsu Tsuzuki, Hiroshi Kageyama, Hideyuki Nakano & Yasuhiko Shirota. (2006) Electrically Conducting Amorphous Molecular Material: Iodine Doped m-MTDATA as a Hole Injection Buffer Layer in Organic Electroluminescent Devices. Molecular Crystals and Liquid Crystals 455:1, pages 259-266.
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Hiromitsu Ogawa, Ryoji Okuda & Yasuhiko Shirota. (1998) Exciplex Emission in an Organic Electroluminescent Device Using Electron-transporting 1,3,5-Tris(4-tert−butylphenyl-1,3,4-oxadiazolyl)benzene and Hole-transporting N,N′−bis(3-methylphenyl)-N,N′−diphenyl-[1,l′-biphenyl]-4,4′-diamine. Molecular Crystals and Liquid Crystals Science and Technology. Section A. Molecular Crystals and Liquid Crystals 315:1, pages 187-192.
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J.I. Sam, H. Kageyama, S. Nomura, H. Nakano & Y. Shirota. (1997) Photo- and Electro-Active Amorphous Molecular material: Morphology, Structures, and Hole Transport Properties of Tris[4-(2-Thienyl)Phenyl]Amine. Molecular Crystals and Liquid Crystals Science and Technology. Section A. Molecular Crystals and Liquid Crystals 296:1, pages 445-463.
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Han‐Nan Yang & Zheng‐Hong Lu. 2021. Inorganic and Organic Thin Films. Inorganic and Organic Thin Films 285 298 .
Han-Nan Yang, Shou-Jie He, Tao Zhang, Jia-Xiu Man, Nan Jiang, Deng-Ke Wang & Zheng-Hong Lu. (2018) Glass transition temperatures in pure and composite organic thin-films. Organic Electronics 60, pages 45-50.
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Vasudevan Dhayalan, Christoph Sämann & Paul Knochel. (2015) Synthesis of polyfunctional secondary amines by the addition of functionalized zinc reagents to nitrosoarenes. Chemical Communications 51:15, pages 3239-3242.
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Ricardo Vivas-Reyes, Francisco Núñez-Zarur & Emiliano Martı´nez. (2008) Electronic structure and reactivity analysis for a set of Zn-chelates with substituted 8-hydroxyquinoline ligands and their application in OLED. Organic Electronics 9:5, pages 625-634.
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Abdel‐Sattar S. Hamad Elgazwy. (2007) Synthesis and reactivity of thiophene palladium and thiophene dipalladium complexes with unsaturated molecules. Applied Organometallic Chemistry 21:12, pages 1041-1053.
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Yasuhiko Shirota & Hiroshi Kageyama. (2007) Charge Carrier Transporting Molecular Materials and Their Applications in Devices. Chemical Reviews 107:4, pages 953-1010.
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Yasuhiko Shirota. (2005) Photo- and electroactive amorphous molecular materials—molecular design, syntheses, reactions, properties, and applications. J. Mater. Chem. 15:1, pages 75-93.
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R.E. Littleford, D.R. Tackley, J.C. Cherryman, G. Dent & W.E. Smith. (2004) A Raman and DFT study of substituted triphenylamines for use as charge transfer materials in light emitting polymers. Journal of Molecular Structure 692:1-3, pages 81-90.
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Mauro Ghedini, Iolinda Aiello, Annarita Grisolia, Alessandra Crispini & Massimo Deda. 2003. Metal-Ligand Interactions. Metal-Ligand Interactions 107 119 .
Saumitra Sengupta, Subir Kumar Sadhukhan & Sanjukta Muhuri. (2002) A tetraphenylmethane based starburst triarylamine cluster: spectroscopy, electrochemistry and morphological studies. Tetrahedron Letters 43:19, pages 3521-3524.
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Manabu Uchida, Takenori Izumizawa, Takaharu Nakano, Shigehiro Yamaguchi, Kohei Tamao & Kenji Furukawa. (2001) Structural Optimization of 2,5-Diarylsiloles as Excellent Electron-Transporting Materials for Organic Electroluminescent Devices. Chemistry of Materials 13:8, pages 2680-2683.
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Christophe Desmarets, Raphaël Schneider & Yves Fort. (2001) Nickel-catalysed synthesis of 3-chloroanilines and chloro aminopyridines via cross-coupling reactions of aryl and heteroaryl dichlorides with amines. Tetrahedron Letters 42:2, pages 247-250.
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J.V. Grazulevicius & P. Strohriegl. 2001. Handbook of Advanced Electronic and Photonic Materials and Devices. Handbook of Advanced Electronic and Photonic Materials and Devices 233 274 .
Kenji Okumoto, Kenjiro Wayaku, Tetsuya Noda, Hiroshi Kageyama & Yasuhiko Shirota. (2000) Amorphous molecular materials: charge transport in the glassy state of N,N′-di(biphenylyl)-N,N′-diphenyl-[1,1′-biphenyl]-4,4′-diamines. Synthetic Metals 111-112, pages 473-476.
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Yasuhiko Shirota, Kenji Okumoto & Hiroshi Inada. (2000) Thermally stable organic light-emitting diodes using new families of hole-transporting amorphous molecular materials. Synthetic Metals 111-112, pages 387-391.
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Tetsuya Noda & Yasuhiko Shirota. (2000) A blue-emitting organic electroluminescent device using a novel emitting amorphous molecular material. Journal of Luminescence 87-89, pages 1168-1170.
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P. M. Borsenberger, W. T. Gruenbaum, E. H. Magin, S. A. Visser & D. E. Schildkraut. (1999) Hole trapping in molecularly doped polymers. Journal of Polymer Science Part B: Polymer Physics 37:4, pages 349-356.
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S.A Visser, W.T Gruenbaum, E.H Magin & P.M Borsenberger. (1999) Hole transport in arylamine doped polymers. Chemical Physics 240:1-2, pages 197-203.
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Akira Adachi, Joji Ohshita, Atsutaka Kunai, Junji Kido & Koichi Okita. (1998) Multilayer Organic Electroluminescent Device with Dithienosilole Derivative. Chemistry Letters 27:12, pages 1233-1234.
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P. M. Borsenberger, W. T. Gruenbaum, E. H. Magin & S. A. Visser. (1998) Electron Trapping in Acceptor Doped Polymers. physica status solidi (a) 166:2, pages 835-842.
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Koji Itano, Hiromitsu Ogawa & Yasuhiko Shirota. (1998) Exciplex formation at the organic solid-state interface: Yellow emission in organic light-emitting diodes using green-fluorescent tris(8-quinolinolato)aluminum and hole-transporting molecular materials with low ionization potentials. Applied Physics Letters 72:6, pages 636-638.
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Hiromitsu Ogawa, Hiroshi Inada & Yasuhiko Shirota. (2011) Thermally stable organic electroluminescent device using novel amorphous molecular charge‐transport materials, 4,4′,4“‐tris[bis(4′‐ tert ‐butyl‐biphenyl‐4‐yl)amino]triphenylamine and 4,4,4“‐tri( n ‐carbazolyl)triphenylamine . Macromolecular Symposia 125:1, pages 171-180.
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Josef Salbeck, Frank Weissörtel & Jacqueline Bauer. (2011) Spiro linked compounds for use as active materials in organic light emitting diodes. Macromolecular Symposia 125:1, pages 121-132.
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Hiromitsu Ogawa, Katsuhei Ohnishi & Yasuhiko Shirota. (1997) Tri (p-terphenyl-4-yl) amine as a novel blue-emitting material for organic electroluminescent devices. Synthetic Metals 91:1-3, pages 243-245.
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J. Salbeck, N. Yu, J. Bauer, F. Weissörtel & H. Bestgen. (1997) Low molecular organic glasses for blue electroluminescence. Synthetic Metals 91:1-3, pages 209-215.
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Yoshihito Kunugi, Ibro Tabakovic, Augusto Canavesi & Larry L. Miller. (1997) Light-emitting diodes based on linear and starburst electro-oligomerized thienyltriphenylamines. Synthetic Metals 89:3, pages 227-229.
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Yasuhiko Shirota, Yoshiyuki Kuwabara, Daisuke Okuda, Ryoji Okuda, Hiromitsu Ogawa, Hiroshi Inada, Takeo Wakimoto, Hiroshi Nakada, Yoshinobu Yonemoto, Shin Kawami & Kunio Imai. (1997) Starburst molecules based on π-electron systems as materials for organic electroluminescent devices. Journal of Luminescence 72-74, pages 985-991.
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Tetsuya Noda, Ichiro Imae, Naoki Noma & Yasuhiko Shirota. (2004) 5, 5″‐Bis{4‐[bis(4‐methylphenyl)amino]phenyl}2, 2′:5′, 2″‐terthiophene and 5, 5‴‐bis{4‐[Bis(4‐methylphenyl)amino]phenyl}2, 2′:5′, 2″:5″, 2‴‐quaterthiophene as a Novel Family of Amorphous Molecular Materials. Advanced Materials 9:3, pages 239-241.
Crossref
Tetsuya Noda, Hiromitsu Ogawa, Naoki Noma & Yasuhiko Shirota. (1997) A novel yellow-emitting material, 5,5′′-bis{4-[bis(4-methylphenyl)amino] phenyl}-2,2′:5′,2′′-terthiophene, for organic electroluminescent devices. Applied Physics Letters 70:6, pages 699-701.
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K. Itano, T. Tsuzuki, H. Ogawa, S. Appleyard, M.R. Willis & Y. Shirota. (1997) Fabrication and performances of a double-layer organic electroluminescent device using a novel starburst molecule, 1,3,5-tris[N-(4-diphenylaminophenyl)phenylamino]benzene, as a hole-transport material and tris(8-quinolinolato)aluminum as an emitting material. IEEE Transactions on Electron Devices 44:8, pages 1218-1221.
Crossref
Tetsuya Noda, Hiromitsu Ogawa, Naoki Noma & Yasuhiko Shirota. (2004) A novel family of amorphous molecular materials containing an oligothiophene moiety as color‐tunable emitting materials for organic electroluminescent devices. Advanced Materials 9:9, pages 720-722.
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