Abstract
We report a comparative quantum-chemical study of the electronic structures and optical properties of a series of cationic complexes [M(ppy) 2(N∧N)]+ (N∧N = Hcmbpy = 4-carboxy-4′-methylbpy, M = Rh (Rh1), Ir(Ir2); N∧N = H 2dcbpy = 4,4′-dicarboxy-bpy, M = Rh (Rh3) and Ir (Ir4)). The theoretical calculation reveals that the increased number of -COOH groups on the bpy ligand can decrease the energy levels of LUMO more than HOMO and narrow down the HOMO-LUMO energy gaps, which results in the red-shifted of the lowest-lying absorption and phosphorescent spectra. The lowest-lying singlet absorptions were categorized as d(M,M = Rh or Ir) + π(ppy) →π*(bpy) with MLCT and LLCT characters. The calculated phosphorescence at 628 and 668 nm for Rh1 and Rh3 is mainly bpy-based intraligand π* →π transition, while 743 and 827 nm emission for Ir2 and Ir4 are mixed characters of 3MLCT and 3LLCT {[π*(bpy)] → [d(Ir) + π(ppy)]}. Moreover, the reasons for different transition characters and phosphorescence quantum yield between Rh and Ir species, and between Ir2 and Ir4 are discussed in this paper.
Original language | English |
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Pages (from-to) | 6051-6059 |
Number of pages | 9 |
Journal | Physical Chemistry Chemical Physics |
Volume | 11 |
Issue number | 29 |
DOIs | |
Publication status | Published - 2009 |
Externally published | Yes |