Synthesis, Structure, and Photophysical Properties of Blue‐Emitting Zinc(II) Complexes with 3‐Aryl‐Substituted 1‐Pyridylimidazo[1,5‐<i>a</i>]pyridine Ligands

Ardizzoia, G. Attilio; Brenna, Stefano; Durini, Sara; Therrien, Bruno; Veronelli, Mattia

doi:10.1002/ejic.201402415

Cited by 45 publications

(36 citation statements)

References 64 publications

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“…The first step in this method is the optimization of the geometries of the complexes under investigation. In the present study we employed the hybrid functional PBE0, which previously proved to give computational results consistent with the experimental data . Taking into consideration the complex [Mo(CO) 4 (phen)] ( 1 ) as a paradigmatic example of the series 1 – 13 , its molecular structure was optimized starting from the X‐ray data taken from the literature .…”

Section: Resultssupporting

confidence: 57%

A Quantitative Description of the σ‐Donor and π‐Acceptor Properties of Substituted Phenanthrolines

et al. 2016

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The bond between molybdenum and substituted 1,10-phenanthroline ligands in a series of [Mo(CO)4(phen*)]\ud complexes has been studied by combining experimental data (νCO) with DFT calculations. First, natural orbitals for chemical valence (NOCV) were calculated: The resulting charge-transfer magnitudes (Δqi) associated with the deformation density channels (Δρi) were related to σ-donation and π-back-donation.\ud Then, energy decomposition analysis was performed by applying the extended transition state (ETS) scheme. The outcomes of the ETS-NOCV approach has allowed us to quantify the energetic contribution of both ligand-to-metal (Eσ) and metal-to ligand (Eπ) interactions. A new parameter (Tphen) has been introduced comprising both Eσ and Eπ and thus providing a descriptor for the overall electronic contribution given by phenanthrolines\ud to the metal–ligand bond. This was corroborated by the linear correlation found between Tphen and the νCO vibration\ud modes of [Mo(CO)4(phen*)] complexes, at least for those containing a 2,9-unsubstituted phenanthroline. The case of\ud [Mo(CO)4(phen*)] derivatives with a 2,9-substituted phen* is also discussed

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Section: Resultssupporting

confidence: 57%

A Quantitative Description of the σ‐Donor and π‐Acceptor Properties of Substituted Phenanthrolines

et al. 2016

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“…2), which is in accordance with the reported effect of zinc complexation. [55][56][57][58] The metal perturbation evidently leads to an appreciable π phen → π* py intraligand charge transfer (ILCT) character and stabilization of the π* py orbitals (LUMO) as confirmed by TD-DFT analysis (see the predicted low energy excitations and frontier molecular orbitals of 1X in Table S1 † and Fig. 3, S4 †).…”

Section: Photophysical Studies In Solutionmentioning

confidence: 76%

“…[58][59][60][61] Halide ligands at the zinc metal show little influence on the emission wavelength of 1Cl and 1I, but drastically affect the intensity of emission that has also been noticed for the related ZnX 2 (X = Cl, I) compounds. 55 Replacing chloride with iodide decreases the quantum yield from 0.45 (1Cl) to 0.02 (1I).…”

Section: Photophysical Studies In Solutionmentioning

confidence: 99%

Diversifying the luminescence of phenanthro-diimine ligands in zinc complexes

Temerova

Kisel

Eskelinen

et al. 2021

Inorg. Chem. Front.

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“…Among nitrogen‐based ligands, imidazo‐pyridines are known for their interesting photochemical properties, both as free molecules and when coordinated to transition metals . In our ongoing study on complexes with nitrogen‐containing ligands, we also investigated zinc(II), and silver(I) complexes bearing N , N ‐coordinated imidazo‐pyridines. Herein, we report on the luminescence properties of a series of homoleptic zinc(II) complexes (Zn(L R ) 2 ) with (imidazo[1,5‐ a ]pyrid‐3‐yl)phenols, which in this case act as N , O ‐bidentate ligands.…”

Section: Introductionmentioning

confidence: 99%

Tuning the Fluorescence Emission and HOMO‐LUMO Band Gap in Homoleptic Zinc(II) Complexes with N,O‐Bidentate (Imidazo[1,5‐a]pyrid‐3‐yl)phenols

et al. 2019

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A series of homoleptic zinc(II) complexes of the general formula [Zn(LR)2] (HLR: (imidazo[1,5‐a]pyrid‐3‐yl)phenol; R: para‐substituent to the phenol) have been synthesized. The single‐crystal X‐ray structure analysis of complex [Zn(LH)2] (1) confirmed the expected N,O‐bidentate coordination of LR, via the pyridine‐like nitrogen of the imidazo[1,5‐a]pyridine skeleton and the phenolate oxygen. The photophysical properties of the complexes have been investigated in dichloromethane solution, showing fluorescence emission when excited with UV light (λexc = 340–360 nm). The intensity and λmax of the emission are both significantly influenced by the R‐substituent, the emission maxima moving from blue (R = CF3, Zn(LCF3)2] (6)) to orange (R = NO2, Zn(LNO2)2] (7). Most of [Zn(LR)2] compounds are characterized by moderate‐to‐good absolute photoluminescence quantum yields, with a maximum of 0.33 for [Zn(LH)2] (1). Density functional calculations allowed to identify the Natural Transition Orbitals involved in the electronic transitions and define the main transition as being HOMO‐LUMO (>95 %) in character. A good linear correlation was found between the HOMO energy and the Hammett σp constants associated to the R‐substituent, whereas the fluorescence behavior has been described in terms of HOMO‐LUMO band gap.

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Synthesis, Structure, and Photophysical Properties of Blue‐Emitting Zinc(II) Complexes with 3‐Aryl‐Substituted 1‐Pyridylimidazo[1,5‐a]pyridine Ligands

Cited by 45 publications

References 64 publications

A Quantitative Description of the σ‐Donor and π‐Acceptor Properties of Substituted Phenanthrolines

A Quantitative Description of the σ‐Donor and π‐Acceptor Properties of Substituted Phenanthrolines

Diversifying the luminescence of phenanthro-diimine ligands in zinc complexes

Tuning the Fluorescence Emission and HOMO‐LUMO Band Gap in Homoleptic Zinc(II) Complexes with N,O‐Bidentate (Imidazo[1,5‐a]pyrid‐3‐yl)phenols

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