We report highly efficient, variable-color light-emitting diodes (LEDs) realized via mixing of molecular exciton and excimer phosphorescent emissions from a new organic phosphor platinum N boolean AND C(2)boolean AND N-[1,3-di(4-methoxy-pyrid-2-yl)-4,6-difluorobenzene] chloride (PtL(26)Cl), a member of the Pt(N boolean AND C boolean AND N) complex series, where N boolean AND C boolean AND N represents a cyclometallating tridentate ligand based on 1,3-dipyridylbenzene, L. PtL(26)Cl-doped TCTA blends [TCTA = 4,4',4 ''-tris(N-carbazolyl-triphenylamine)] have been used as either the low-concentration bluish-green (molecular) phosphorescence emitter or high-concentration red (excimer) phosphorescence emitter. By adjusting the relative amount of blue and red emissive species, the color of the light emission was tuned from bluish-green through green and white up to red. The concentration-optimized devices can easily reach high brightness up to B = 10,000 cd/m(2), achieving extremely high external quantum efficiency (EQE) up to 20% at low-current densities (<10(-2) mA/cm(2)) and up to 17% at B = 500 cd/m(2). High purity white light emission [CIE coordinates (x = 0.34, y = 0.35)] was realized at this B, QE = 11.5%, power efficiency of 6.8 lm/W and color rendering index (CRI) = 74, though CRI = 81 has been achieved with CIE coordinates (x = 0.42, y = 0.38). The reported performance data are among the best achievements reported for color and white emission organic LEDs. (C) 2009 Elsevier B.V. All rights reserved.

Mixing of molecular exciton and excimer phosphorescence to tune color and efficiency of organic LEDs

M Cocchi;V Fattori
2010

Abstract

We report highly efficient, variable-color light-emitting diodes (LEDs) realized via mixing of molecular exciton and excimer phosphorescent emissions from a new organic phosphor platinum N boolean AND C(2)boolean AND N-[1,3-di(4-methoxy-pyrid-2-yl)-4,6-difluorobenzene] chloride (PtL(26)Cl), a member of the Pt(N boolean AND C boolean AND N) complex series, where N boolean AND C boolean AND N represents a cyclometallating tridentate ligand based on 1,3-dipyridylbenzene, L. PtL(26)Cl-doped TCTA blends [TCTA = 4,4',4 ''-tris(N-carbazolyl-triphenylamine)] have been used as either the low-concentration bluish-green (molecular) phosphorescence emitter or high-concentration red (excimer) phosphorescence emitter. By adjusting the relative amount of blue and red emissive species, the color of the light emission was tuned from bluish-green through green and white up to red. The concentration-optimized devices can easily reach high brightness up to B = 10,000 cd/m(2), achieving extremely high external quantum efficiency (EQE) up to 20% at low-current densities (<10(-2) mA/cm(2)) and up to 17% at B = 500 cd/m(2). High purity white light emission [CIE coordinates (x = 0.34, y = 0.35)] was realized at this B, QE = 11.5%, power efficiency of 6.8 lm/W and color rendering index (CRI) = 74, though CRI = 81 has been achieved with CIE coordinates (x = 0.42, y = 0.38). The reported performance data are among the best achievements reported for color and white emission organic LEDs. (C) 2009 Elsevier B.V. All rights reserved.
2010
Istituto per la Sintesi Organica e la Fotoreattivita' - ISOF
Organic light-emitting diodes
Organic electroluminescence
phosphorescence
Excimer phosphorescence
White OLED
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/34194
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