期刊
JOURNAL OF ORGANOMETALLIC CHEMISTRY
卷 696, 期 11-12, 页码 2388-2398出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jorganchem.2011.03.002
关键词
Cyclometalated complex; Platinum; Oxygen sensing; Phosphorescence; Triplet state; Carbazole
资金
- NSFC [20972024, 21073028]
- Fundamental Research Funds for the Central Universities [DUT10ZD212]
- Ministry of Education [SRFDP-200801410004, NCET-08-0077]
- Royal Society (UK)
- NSFC (China-UK Cost-Share Science Networks) [21011130154]
- PCSIRT [IRT0711]
- Education Department of Liaoning Province [2009T015]
- State Key Laboratory of Fine Chemicals [KF0802]
- Dalian University of Technology
Carbazole-caped cyclometalated platinum(II) complexes aryl-R-ppyPt(acac) (where ppy - 4-phenylpyridine, acac acetylacetonato, aryl carbazole and R is linker) were synthesized. The carbazole group is attached to the ppy ligand via alpha-diketo moiety (Pt-1) and (Pt-2) or C-C single bond (Pt-3), by Sonogashira or Negishi coupling reactions. We found that the ethynylene bonds of the C boolean AND N ligands were oxidized to alpha-diketo or methylene-keto structure during the metalation with K2PtCl4. Emissions beyond 550 nm were observed for Pt-1, with electron-withdrawing alpha-diketo moiety attached to ppy ligand, compared to the emission at 486 nm for the parent complex ppyPt(acac). Extended phosphorescence lifetime (tau(P) = 12.4 mu s) and enhanced phosphorescence quantum yield (Phi(P) = 66%) were observed for Pt-3 compared to ppyPt(acac) (tau(P) = 2.4 mu s and Phi P = 15%), we attribute the enhanced phosphorescence property to the electron-donating carbazole substituent. With density functional theoretical calculations (DFT), we found that the carbazole moiety is involved in the HOMO (Pt-3), the alpha-diketo moiety is involved in the LUMO (Pt-1), thus the energy gaps between the HOMO and LUMO in both cases were decreased and red-shifted emission is expected, compared to ppyPt(acac). The different emission properties of 1,2-dione containing complexes (Pt-1 and Pt-2) and the Pt-3 were rationalized by the spin density surface analysis of the complexes. The luminescent O-2 sensing properties of these complexes were studied in solution and in polymer films, for which fast response time (3.3 s) and recovery time (3.7 s) were observed. Two-site model fitting indicated that complex Pt-3 is the most sensitive O-2 sensing material among the complexes studied herein, with quenching constant of K-SV = 0.0238 Torr(-1). (C) 2011 Elsevier B.V. All rights reserved.
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