Highly Efficient, Near-Infrared Electrophosphorescence from a Pt–Metalloporphyrin Complex The authors acknowledge financial support from the U.S. Dept. of the Army, CECOM for the phase 14II SBIR program (contract no. 14W15P7T-06-C-T201), and Universal Display Corporation.
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Stephen R. Forrest | Peter I. Djurovich | Mark E. Thompson | Julie J. Brown | Lech Michalski | Kenneth Hanson | Stephen R. Forrest | Yiru Sun | Carsten Borek | Kenneth Hanson | Kristen Aznavour | R. Bau | Jason Brooks | Jason Brooks | Julie J. Brown | S. Forrest | M. Thompson | Carsten Borek | P. Djurovich | L. Michalski | J. Brooks | Yiru Sun | R. Bau | Yiru Sun | Lech Michalski | R. Bau | Kenneth Hanson | K. Aznavour
[1] Marco Salerno,et al. Multifunctional platinum porphyrin dendrimers as emitters in undoped phosphorescent based light emitting devices , 2006 .
[2] S. Forrest,et al. Highly efficient phosphorescent emission from organic electroluminescent devices , 1998, Nature.
[3] W. Stampor,et al. Photophysics of an electrophosphorescent platinum (II) porphyrin in solid films. , 2005, The Journal of chemical physics.
[4] John R. Reynolds,et al. Near-infrared electroluminescence from conjugated polymer/lanthanide porphyrin blends , 2001 .
[5] M. Fernandes,et al. Characterization of the triplet state of tris(8-hydroxyquinoline)aluminium(III) in benzene solution. , 2003, Journal of the American Chemical Society.
[6] Hong Zhang,et al. Sub-picosecond fluorescence dynamics of organic light-emitting diode tris(8-hydroxyquinoline) metal complexes , 1999 .
[7] Tae-Sik Kang,et al. Near-infrared organic light emitting diodes , 2003 .
[8] Clemens Jochum,et al. Porphyrins. 43. Triplet sublevel emission of platinum tetrabenzoporphyrin by spectrothermal principal component decomposition , 1982 .
[9] Franco Cacialli,et al. Near-infrared electroluminescence of polymer light-emitting diodes doped with a lissamine-sensitized Nd3+ complex , 2001 .
[10] W. Jentzen,et al. Structural characterization of synthetic and protein-bound porphyrins in terms of the lowest-frequency normal coordinates of the macrocycle , 1997 .
[11] J. E. Rogers,et al. Observation and Interpretation of Annulated Porphyrins: Studies on the Photophysical Properties of meso-Tetraphenylmetalloporphyrins , 2003 .
[12] Ulrich S. Schubert,et al. New Trends in the Use of Transition Metal–Ligand Complexes for Applications in Electroluminescent Devices , 2005 .
[13] Sergei A Vinogradov,et al. Synthesis of symmetrical tetraaryltetranaphtho[2,3]porphyrins. , 2005, The Journal of organic chemistry.
[14] Stephen R. Forrest,et al. Operating lifetime of phosphorescent organic light emitting devices , 2000 .
[15] Stephen R. Forrest,et al. High operational stability of electrophosphorescent devices , 2002 .
[16] Junbiao Peng,et al. Red Electrophosphorescence of Conjugated Organoplatinum(II) Polymers Prepared via Direct Metalation of Poly-(fluorene-co-tetraphenylporphyrin) Copolymers , 2005 .
[17] Junji Kido,et al. Organo lanthanide metal complexes for electroluminescent materials. , 2002, Chemical reviews.
[18] Michael S. Weaver,et al. Current status of electrophosphorescent device stability , 2003 .
[19] Jian Li,et al. Organic light-emitting diodes having exclusive near-infrared electrophosphorescence , 2006 .
[20] C. Gärditz,et al. The triplet state in tris-(8-hydroxyquinoline)aluminum , 2004 .
[21] Ying Wang,et al. Dramatic effects of hole transport layer on the efficiency of iridium-based organic light-emitting diodes , 2004 .
[22] Stephen R. Forrest,et al. Improved energy transfer in electrophosphorescent devices , 1999 .
[23] Alan O'Riordan,et al. Near infrared electroluminescence from neodymium complex-doped polymer light emitting diodes , 2006 .
[24] Sue-Lein Wang,et al. Crystal and molecular structure of a five-coordinate zinc complex of meso-tetraphenyltetrabenzoprophyrin , 1993 .
[25] Joseph Shinar,et al. Molecular-wire behavior of OLED materials: exciton dynamics in multichromophoric Alq3-oligofluorene-Pt(II)porphyrin triads. , 2006, Journal of the American Chemical Society.
[26] Shigeki Kawabata,et al. Enhancement of External Quantum Efficiency of Red Phosphorescent Organic Light‐Emitting Devices with Facially Encumbered and Bulky PtII Porphyrin Complexes , 2006 .
[27] S. Vinogradov,et al. Luminescent Zn and Pd tetranaphthaloporphyrins. , 2003, Inorganic chemistry.
[28] Kimihiro Susumu,et al. Exceptional near-infrared fluorescence quantum yields and excited-state absorptivity of highly conjugated porphyrin arrays. , 2006, Journal of the American Chemical Society.
[29] Shubhashish Datta,et al. Relationship between the ionization and oxidation potentials of molecular organic semiconductors , 2005 .
[30] D Murphy,et al. Highly phosphorescent bis-cyclometalated iridium complexes: synthesis, photophysical characterization, and use in organic light emitting diodes. , 2001, Journal of the American Chemical Society.