The Evolution of Organometallic Complexes in Organic Light-Emitting Devices

Mark Thompson

doi:10.1557/mrs2007.144

Abstract

This article is an edited transcript of the MRS Medal presentation given by Mark Thompson (University of Southern California) on November 28, 2006, at the Materials Research Society Fall Meeting in Boston. Thompson was awarded the Medal for the “development of highly efficient heavy-metal phosphor complexes.” The MRS Medal recognizes a specific outstanding recent discovery or advancement which is expected to have a major impact on the progress of any materials-related field.

Successful research efforts have led to improvements in the internal efficiencies of organic light-emitting devices (OLEDs) from 25% to 100%. The electroluminescence process in OLEDs involves the formation of both singlet and triplet excitons, formed in a ratio of 1:3. There is a drive to improve spin statistics by developing compounds in which triplet excitons, in addition to singlet excitons, can be used efficiently. Success with the incorporation of heavy-metal–based phosphors into OLEDs, in which the strong spin-orbit coupling of the metal atom allows for efficient molecular phosphorescence from triplet excitons, resulted in the identification and synthesis of an iridium complex, fac-tris-phenylpyridine iridium, with internal efficiencies of 100%. This, in turn, has led to the synthesis of more than 100 iridium- and platinum-based compounds, which have become the most efficient light-emitting compounds yet discovered. Intellectual property from Thompson's research in this field has led to more than 50 U.S. patents and substantial entrepreneurial investment toward commercial applications and devices.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

YU, Tianzhi ZHAO, Yuling ZHANG, Peng ZHANG, Hui FAN, Duowang and DONG, Wenkui 2008. Crystal Structure of Bis(1-phenylisoquinolyl-N,C2)(3-hydroxypicolinato)-iridium(III), Ir(1-piq)2(pic-3-OH). Analytical Sciences: X-ray Structure Analysis Online, Vol. 24, Issue. , p. X157.

Currie, Michael J. Mapel, Jonathan K. Heidel, Timothy D. Goffri, Shalom and Baldo, Marc A. 2008. High-Efficiency Organic Solar Concentrators for Photovoltaics. Science, Vol. 321, Issue. 5886, p. 226.

Hander, Stephan Da Como, Enrico Feldmann, Jochen Lupton, John M. Lennartz, Christian Erk, Peter Fuchs, Evelyn Molt, Oliver Munster, Ingo Schildknecht, Christian and Wagenblast, Gerhard 2008. Controlling the radiative rate of electrophosphorescent organometallic complexes by engineering the singlet-triplet splitting. p. 1.

Haneder, Stephan Da Como, Enrico Feldmann, Jochen Lupton, John M. Lennartz, Christian Erk, Peter Fuchs, Evelyn Molt, Oliver Münster, Ingo Schildknecht, Christian and Wagenblast, Gerhard 2008. Controlling the Radiative Rate of Deep‐Blue Electrophosphorescent Organometallic Complexes by Singlet‐Triplet Gap Engineering. Advanced Materials, Vol. 20, Issue. 17, p. 3325.

Mitsumori, Teruyuki Campos, Luis M. Garcia-Garibay, Miguel A. Wudl, Fred Sato, Hideki and Sato, Yoshiharu 2009. Synthesis, properties, and LED performance of highly luminescent metal complexes containing indolizino[3,4,5-ab]isoindoles. Journal of Materials Chemistry, Vol. 19, Issue. 32, p. 5826.

Stouwdam, Jan W. and Janssen, René A. J. 2009. Electroluminescent Cu‐doped CdS Quantum Dots. Advanced Materials, Vol. 21, Issue. 28, p. 2916.

Ulbricht, Christoph Beyer, Beatrice Friebe, Christian Winter, Andreas and Schubert, Ulrich S. 2009. Recent Developments in the Application of Phosphorescent Iridium(III) Complex Systems. Advanced Materials, Vol. 21, Issue. 44, p. 4418.

Haneder, Stephan Da Como, Enrico Feldmann, Jochen Rothmann, Michael M. Strohriegl, Peter Lennartz, Christian Molt, Oliver Münster, Ingo Schildknecht, Christian and Wagenblast, Gerhard 2009. Effect of Electric Field on Coulomb‐Stabilized Excitons in Host/Guest Systems for Deep‐Blue Electrophosphorescence. Advanced Functional Materials, Vol. 19, Issue. 15, p. 2416.

Tennyson, Andrew G. Rosen, Evelyn L. Collins, Mary S. Lynch, Vincent M. and Bielawski, Christopher W. 2009. Bimetallic N-Heterocyclic Carbene−Iridium Complexes: Investigating Metal−Metal and Metal−Ligand Communication via Electrochemistry and Phosphorescence Spectroscopy. Inorganic Chemistry, Vol. 48, Issue. 14, p. 6924.

Rand, Barry P. Schols, Sarah Cheyns, David Gommans, Hans Girotto, Claudio Genoe, Jan Heremans, Paul and Poortmans, Jef 2009. Organic solar cells with sensitized phosphorescent absorbing layers. Organic Electronics, Vol. 10, Issue. 5, p. 1015.

Hunt, Sean W. Wang, Xiaoping and Richmond, Michael G. 2009. Synthesis, reactivity investigation, and X-ray diffraction structures of new platinum(II) compounds containing redox-active diphosphine ligands. Journal of Molecular Structure, Vol. 919, Issue. 1-3, p. 34.

Chiu, Yuan‐Chieh Hung, Jui‐Yi Chi, Yun Chen, Chung‐Chia Chang, Chih‐Hao Wu, Chung‐Chih Cheng, Yi‐Ming Yu, Ya‐Chien Lee, Gene‐Hsiang and Chou, Pi‐Tai 2009. En Route to High External Quantum Efficiency (∼12%), Organic True‐Blue‐Light‐Emitting Diodes Employing Novel Design of Iridium (III) Phosphors. Advanced Materials, Vol. 21, Issue. 21, p. 2221.

Chiu, Yuan-Chieh Chi, Yun Hung, Jui-Yi Cheng, Yi-Ming Yu, Ya-Chien Chung, Ming-Wen Lee, Gene-Hsiang Chou, Pi-Tai Chen, Chung-Chia Wu, Chung-Chih and Hsieh, Hsi-Ying 2009. Blue to True-Blue Phosphorescent IrIII Complexes Bearing a Nonconjugated Ancillary Phosphine Chelate: Strategic Synthesis, Photophysics, and Device Integration. ACS Applied Materials & Interfaces, Vol. 1, Issue. 2, p. 433.

Du, Bo-Sian Lin, Chen-Huey Chi, Yun Hung, Jui-Yi Chung, Min-Wen Lin, Tsung-Yi Lee, Gene-Hsiang Wong, Ken-Tsung Chou, Pi-Tai Hung, Wen-Yi and Chiu, Hao-Chih 2010. Diphenyl(1-naphthyl)phosphine Ancillary for Assembling of Red and Orange-Emitting Ir(III) Based Phosphors; Strategic Synthesis, Photophysics, and Organic Light-Emitting Diode Fabrication. Inorganic Chemistry, Vol. 49, Issue. 19, p. 8713.

Reineke, Sebastian Rosenow, Thomas C. Lüssem, Björn and Leo, Karl 2010. Improved High‐Brightness Efficiency of Phosphorescent Organic LEDs Comprising Emitter Molecules with Small Permanent Dipole Moments. Advanced Materials, Vol. 22, Issue. 29, p. 3189.

Xie, Zhigang Ma, Liqing deKrafft, Kathryn E. Jin, Athena and Lin, Wenbin 2010. Porous Phosphorescent Coordination Polymers for Oxygen Sensing. Journal of the American Chemical Society, Vol. 132, Issue. 3, p. 922.

Hudson, Zachary M. Sun, Christina Helander, Michael G. Amarne, Hazem Lu, Zheng‐Hong and Wang, Suning 2010. Enhancing Phosphorescence and Electrophosphorescence Efficiency of Cyclometalated Pt(II) Compounds with Triarylboron. Advanced Functional Materials, Vol. 20, Issue. 20, p. 3426.

2010. Colour and the Optical Properties of Materials. p. 419.

Wang, Yafei Tan, Hua Liu, Yu Jiang, Chenxian Hu, Zhengyong Zhu, Meixiang Wang, Lei Zhu, Weiguo and Cao, Yong 2010. Synthesis, opto-physics, and electroluminescence of cyclometalated iridium (III) complex with alkyltrifluorene picolinic acid. Tetrahedron, Vol. 66, Issue. 7, p. 1483.

De Boni, Leonardo Franzen, Paulo L. Gonçalves, Pablo J. Borissevitch, Iouri E. Misoguti, Lino Mendonça, Cleber R. and Zilio, Sergio C. 2011. Pulse train fluorescence technique for measuring triplet state dynamics. Optics Express, Vol. 19, Issue. 11, p. 10813.

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The Evolution of Organometallic Complexes in Organic Light-Emitting Devices

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