Matrix influence on the OLED emitter Ir(btp)(2)(acac) in polymeric host materials - Studies by persistent spectral hole burning Artikel uri icon

Open Access

  • false

Peer Reviewed

  • true

Abstract

  • Fundamental photophysical properties of the phosphorescent organometallic complex Ir(btp)(2)(acac) doped in the polymeric matrices PVK, PFO, and PVB, respectively, are investigated. PVK and PFO are frequently used as host materials in organic light emitting diodes (OLEDs). By application of the laser spectroscopic techniques of phosphorescence line narrowing and persistent spectral hole burning - improved by a synchronous scan technique we studied the zero-field splitting (ZFS) of the T-1 state into the substates I, II, and III. Thus, we were able to probe the effects of the local environment of the emitter molecules in the different amorphous matrices. The magnitude of US is determined by the extent of spin-orbit coupling (SOC) of the T-1 state to metal-to-ligand charge transfer (MLCT) states. Only by mixings of MLCT singlets, a short-lived and intense emission of the triplet state to the singlet ground state becomes possible. Thus, sufficiently large ZFS is crucial for favorable luminescence properties of emitter complexes for OLED applications. The analysis of the spectral hole structure resulting from burning provides information about the ZFS values and their statistical (inhomogeneous) distribution in the amorphous matrices. For Ir(btp)(2)(acac), we found a significant value of approximate to 18 cm(-1) for the splitting between the substates II and III for all three matrices. Interestingly, for PVK the width of the US distribution is found to be 14 cm(-1) - almost twice as large as for PFO and PVB. Consequently, for a considerable fraction of Ir(btp)(2)(acac) molecules in PVK, the ZFS is relatively small and thus, the effective SOC is weak. Therefore, it is indicated that a part of the emitter molecules shows a limited OLED performance. (C) 2008 Elsevier B.V. All rights reserved.

Veröffentlichungszeitpunkt

  • Januar 10, 2008