Influence of Ancillary Ligands and Isomerism on the Luminescence of Bis-cyclometalated Platinum(IV) Complexes

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• 作者：Fabio Juliá ; María-Dulce García-Legaz ; Delia Bautista ; Pablo González-Herrero
• 刊名：Inorganic Chemistry
• 出版年：2016
• 出版时间：August 1, 2016
• 年：2016
• 卷：55
• 期：15
• 页码：7647-7660
• 全文大小：701K
• 年卷期：0
• ISSN：1520-510X

文摘

The synthesis, characterization, and photophysical properties of a wide variety of bis-cyclometalated Pt(IV) complexes featuring a C₂-symmetrical or unsymmetrical {Pt(ppy)₂} unit (sym or unsym complexes, respectively; ppy = C-deprotonated 2-phenylpyridine) and different ancillary ligands are reported. Complexes sym-[Pt(ppy)₂X₂] (X = OTf^–, OAc^–) were obtained by chloride abstraction from sym-[Pt(ppy)₂Cl₂] using the corresponding AgX salts, and the triflate derivative was employed to obtain homologous complexes with X = F^–, Br^–, I^–, trifluoroacetate (TFA^–). Complexes unsym-[Pt(ppy)₂(Me)X] (X = OTf^–, F^–) were prepared by reacting unsym-[Pt(ppy)₂(Me)Cl] with AgOTf or AgF, respectively, and the triflate derivative was employed as precursor for the synthesis of the homologues with X = Br^–, I^–, or TFA^– through its reaction with the appropriate anionic ligands. The previously reported complexes unsym-[Pt(ppy)₂X₂] (X = Cl^–, Br^–, OAc^–, TFA^–) are included in the photophysical study to assess the influence of the arrangement of the cyclometalated ligands. Density functional theory (DFT) and time-dependent DFT calculations on selected derivatives were performed for a better interpretation of the observed excited-state properties. Complexes sym-[Pt(ppy)₂X₂] (except X = I^–) exhibit phosphorescent emissions in fluid solutions at 298 K arising from essentially ³LC(ppy) excited states, which are very similar in shape and energy. However, their efficiencies are heavily dependent on the nature of the ancillary ligands, which affect the energy of deactivating ligand-to-ligand charge transfer (LLCT) or ligand-to-metal charge transfer (LMCT) states. The fluoride derivative sym-[Pt(ppy)₂F₂] shows the highest quantum yield of this series (Φ = 0.398), mainly because the relatively high metal-to-ligand charge transfer admixture in its emitting state leads to a high radiative rate constant. Complexes unsym-[Pt(ppy)₂X₂] emit from ³LC(ppy) states in frozen matrices at 77 K, but their emissions are totally quenched in fluid solution at 298 K because of the presence of low-lying, dissociative LMCT excited states, which also cause photoisomerization reactions. Complexes unsym-[Pt(ppy)₂(Me)X] (X = F^–, Cl^–, Br^–, TFA^–) show strong emissions in fluid solutions at 298 K (Φ = 0.52–0.63) because deactivating LMCT states lie at high energies. However, derivative unsym-[Pt(ppy)₂(Me)I] is only weakly emissive at 298 K because of the presence of low-lying LLCT [p(I) → π*(ppy)] states.