Fluorescence Amplification of Unsaturated Oxazolones Using Palladium: Photophysical and Computational Studies

Fluorescence Amplification of Unsaturated Oxazolones Using Palladium: Photophysical and Computational Studies

Weakly fluorescent (Z)-4-arylidene-5-(4H)-oxazolones (1), ΦPL < 0.1%, containing a variety of conjugated aromatic fragments and/or charged arylidene moieties, have been orthopalladated by reaction with Pd­(OAc)2. The resulting dinuclear complexes (2) have the oxazolone ligands bonded as a C^N-che...

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Bibliographic Details
Published in:Inorganic chemistry Vol. 62; no. 25; pp. 9792 - 9806
Main Authors: Dalmau, David, Crespo, Olga, Matxain, Jon M., Urriolabeitia, Esteban P.
Format: Journal Article
Language:English
Published: United States American Chemical Society 26-06-2023
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Summary:Weakly fluorescent (Z)-4-arylidene-5-(4H)-oxazolones (1), ΦPL < 0.1%, containing a variety of conjugated aromatic fragments and/or charged arylidene moieties, have been orthopalladated by reaction with Pd­(OAc)2. The resulting dinuclear complexes (2) have the oxazolone ligands bonded as a C^N-chelate, restricting intramolecular motions involving the oxazolone. From 2, a variety of mononuclear derivatives, such as [Pd­(C^N-oxazolone)­(O2CCF3)­(py)] (3), [Pd­(C^N-oxazolone)­(py)2]­(ClO4) (4), [Pd­(C^N-oxazolone)­(Cl)­(py)] (5), and [Pd­(C^N-oxazolone)­(X)­(NHC)] (6, 7), have been prepared and fully characterized. Most of complexes 3–6 are strongly fluorescent in solution in the range of wavelengths from green to yellow, with values of ΦPL up to 28% (4h), which are among the highest values of quantum yield ever reported for organometallic Pd complexes with bidentate ligands. This means that the introduction of the Pd in the oxazolone scaffold produces in some cases an amplification of the fluorescence of several orders of magnitude from the free ligand 1 to complexes 3–6. Systematic variations of the substituents of the oxazolones and the ancillary ligands show that the wavelength of emission is tuned by the nature of the oxazolone, while the quantum yield is deeply influenced by the change of ligands. TD-DFT studies of complexes 3–6 show a direct correlation between the participation of the Pd orbitals in the HOMO and the loss of emission through non-radiative pathways. This model allows the understanding of the amplification of the fluorescence and the future rational design of new organopalladium systems with improved properties.
ISSN:0020-1669
1520-510X
DOI:10.1021/acs.inorgchem.3c00601