Title :
Optimization of the Luminescence Efficiencies in Solution-Processed Phosphorescent Dendrimers
Author :
Ribierre, Jean-Charles ; Stevenson, Stuart G. ; Samuel, Ifor D W ; Staton, Sarah V. ; Burn, Paul L.
Author_Institution :
Sch. of Phys. & Astron., Univ. of St Andrews, Fife
fDate :
6/1/2007 12:00:00 AM
Abstract :
We demonstrate that photoluminescence (PL) quantum yield and PL lifetime of fac-tris(2-phenylpyridyl) iridium(III) [Ir(ppy)3]-cored dendrimers in neat film and dispersed into a 4,4´-bis(N-carbazolyl)biphenyl host can be significantly improved by a simple adjustment of the solution preparation. Quenching of the PL in these materials is due to an energy transfer of the triplet excitons to less-emissive sites and can be reduced by blending the phosphorescent molecules into a suitable wide energy gap host or by increasing the number of attached dendrons. We show here that the concentration of these quenchers can also be controlled by changing the time spent by the dendrimer solution under illumination prior to spin-coating. By optimizing the film preparation procedure, the external efficiency of devices made from neat dendrimer films was increased from 2% to 10%
Keywords :
excitons; organic compounds; organic light emitting diodes; phosphorescence; photoluminescence; radiation quenching; 4,4´-bis(N-carbazolyl)biphenyl; OLED; dendrimer films; fac-tris(2-phenylpyridyl) iridium(III) [Ir(ppy)3]-cored dendrimers; luminescence efficiency; neat film; phosphorescent dendrimers; photo-physics; photoluminescence lifetime; photoluminescence quantum yield; photoluminescence quenchers; photostability; triplet excitons; Active matrix organic light emitting diodes; Astrochemistry; Energy exchange; Excitons; Light emitting diodes; Lighting; Luminescence; Organic light emitting diodes; Phosphorescence; Photoluminescence; Dendrimer; OLED; phosphorescence; photophysics; photostability; solution-processing;
Journal_Title :
Display Technology, Journal of
DOI :
10.1109/JDT.2007.896744
