Kinetic Monte Carlo Study of the Sensitivity of OLED Efficiency and Lifetime to Materials Parameters
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Raj René Janssen | R. Coehoorn | R. Janssen | R Reinder Coehoorn | PA Peter Bobbert | Harm van Eersel | H. van Eersel | P. Bobbert | Reinder Coehoorn | René Janssen
[1] R. Coehoorn,et al. Hole transport in polyfluorene-based sandwich-type devices : quantitative analysis of the role of energetic disorder , 2008 .
[2] E. Namdas,et al. Triplet exciton diffusion in fac-tris(2-phenylpyridine) iridium(III)-cored electroluminescent dendrimers , 2005 .
[3] Jean-Luc Brédas,et al. Charge transport in organic semiconductors. , 2007, Chemical reviews.
[4] Burkhard König,et al. Chemical Degradation in Organic Light‐Emitting Devices: Mechanisms and Implications for the Design of New Materials , 2013, Advanced materials.
[5] R. Coehoorn,et al. Electron-hole recombination in disordered organic semiconductors : validity of the Langevin formula , 2009 .
[6] R. Coehoorn,et al. Scaling theory for percolative charge transport in disordered molecular semiconductors. , 2011, Physical review letters.
[7] R. Coehoorn,et al. Modeling of the transient mobility in disordered organic semiconductors with a Gaussian density of states , 2011 .
[8] Nir Tessler,et al. Generalized Einstein relation for disordered semiconductors—implications for device performance , 2002 .
[9] S. Forrest,et al. Measurement of the lowest unoccupied molecular orbital energies of molecular organic semiconductors , 2009 .
[10] Chihaya Adachi,et al. Intermolecular interaction and a concentration-quenching mechanism of phosphorescent Ir(III) complexes in a solid film. , 2006, Physical review letters.
[11] R. Coehoorn,et al. Effects of Gaussian disorder on charge carrier transport and recombination in organic semiconductors , 2012 .
[12] Stephen R. Forrest,et al. Quantum efficiency roll-off at high brightness in fluorescent and phosphorescent organic light emitting diodes , 2008 .
[13] Karl Leo,et al. Storage of charge carriers on emitter molecules in organic light-emitting diodes , 2012 .
[14] M. Vissenberg,et al. Theory of the field-effect mobility in amorphous organic transistors , 1998, cond-mat/9802133.
[15] R. Holmes,et al. Highly efficient, single-layer organic light-emitting devices based on a graded-composition emissive layer , 2010 .
[16] Brian D'Andrade,et al. Intrinsic luminance loss in phosphorescent small-molecule organic light emitting devices due to bimolecular annihilation reactions , 2008 .
[17] Karl Leo,et al. Molecular-scale simulation of electroluminescence in a multilayer white organic light-emitting diode. , 2013, Nature materials.
[18] R. H. Jansen,et al. Highly efficient yellow organic light emitting diode based on a layer-cross faded emission layer allowing easy color tuning , 2009 .
[19] H. Bässler. Charge Transport in Disordered Organic Photoconductors a Monte Carlo Simulation Study , 1993 .
[20] K. Walzer,et al. Highly phosphorescent organic mixed films: The effect of aggregation on triplet-triplet annihilation , 2009 .
[21] I. Samuel,et al. Triplet exciton diffusion and phosphorescence quenching in iridium(III)-centered dendrimers. , 2008, Physical review letters.
[22] Stephen R. Forrest,et al. Transient analysis of organic electrophosphorescence. II. Transient analysis of triplet-triplet annihilation , 2000 .
[23] R. Coehoorn,et al. Study of charge-carrier relaxation in a disordered organic semiconductor by simulating impedance spectroscopy , 2014 .
[24] R. Coehoorn,et al. Hole transport in the organic small molecule material α-NPD : evidence for the presence of correlated disorder , 2010 .
[25] Caroline Murawski,et al. Efficiency Roll‐Off in Organic Light‐Emitting Diodes , 2013, Advanced materials.
[26] Shubhashish Datta,et al. Relationship between the ionization and oxidation potentials of molecular organic semiconductors , 2005 .
[27] H. Nicolai,et al. Quantitative analysis of the guest-concentration dependence of the mobility in a disordered fluorene-arylamine host-guest system in the guest-to-guest regime , 2011 .
[28] D. Michaelis,et al. Evidence for non-isotropic emitter orientation in a red phosphorescent organic light-emitting diode and its implications for determining the emitter’s radiative quantum efficiency , 2011 .
[29] R. Coehoorn,et al. Universal size-dependent conductance fluctuations in disordered organic semiconductors. , 2014, Physical review letters.
[30] T. Tsuboi. Electronic states of phosphorescent molecules Ir(ppy)3 and PtOEP used in organic light emitting diodes , 2006 .
[31] Jan Birnstock,et al. High-efficiency and low-voltage p‐i‐n electrophosphorescent organic light-emitting diodes with double-emission layers , 2004 .
[32] R. Scholz,et al. Quantitative description of charge-carrier transport in a white organic light-emitting diode , 2011 .
[33] R. Coehoorn. Hopping mobility of charge carriers in disordered organic host-guest systems: Dependence on the charge-carrier concentration , 2007 .
[34] P. Blom,et al. Unified description of charge-carrier mobilities in disordered semiconducting polymers. , 2005, Physical review letters.
[35] M. Weaver,et al. Direct evidence for degradation of polaron excited states in organic light emitting diodes , 2009 .
[36] Karsten Walzer,et al. Triplet-exciton quenching in organic phosphorescent light-emitting diodes with Ir-based emitters , 2007 .
[37] Karl Leo,et al. White organic light-emitting diodes: Status and perspective , 2013, 1302.3435.
[38] Raj René Janssen,et al. Monte Carlo study of efficiency roll-off of phosphorescent organic light-emitting diodes: Evidence for dominant role of triplet-polaron quenching , 2014 .
[39] S. Chandrasekhar. Stochastic problems in Physics and Astronomy , 1943 .