Investigation of Structural Changes of Cu(I) and Ag(I) Complexes Utilizing a Flexible, Yet Sterically Demanding Multidentate Phosphine Oxide Ligand

The syntheses of a sterically demanding, multidentate bis­(quinaldinyl)­phenylphosphine oxide ligand and some Cu­(I) and Ag­(I) complexes thereof are described. By introducing a methylene group between the quinoline unit and phosphorus, the phosphine oxide ligand gains additional flexibility. This s...

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Veröffentlicht in:Inorganic chemistry 2021-02, Vol.60 (4), p.2437-2445
Hauptverfasser: Kirst, Christin, Zoller, Florian, Bräuniger, Thomas, Mayer, Peter, Fattakhova-Rohlfing, Dina, Karaghiosoff, Konstantin
Format: Artikel
Sprache:eng
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Zusammenfassung:The syntheses of a sterically demanding, multidentate bis­(quinaldinyl)­phenylphosphine oxide ligand and some Cu­(I) and Ag­(I) complexes thereof are described. By introducing a methylene group between the quinoline unit and phosphorus, the phosphine oxide ligand gains additional flexibility. This specific ligand design induces not only a versatile coordination chemistry but also a rarely observed and investigated behavior in solution. The flexibility of the birdlike ligand offers the unexpected opportunity of open-wing and closed-wing coordination to the metal. In fact, the determined crystal structures of these complexes show both orientations. Investigations of the ligand in solution show a strong dependency of the chemical shift of the CH2 protons on the solvent used. Variable-temperature, multinuclear NMR spectroscopy was carried out, and an interesting dynamic behavior of the complexes is observed. Due to the introduced flexibility, the quinaldinyl substituents change their arrangements from open-wing to closed-wing upon cooling, while still staying coordinated to the metal. This change in conformation is completely reversible when warming up the sample. Based on 2D NMR spectra measured at −80 °C, an assignment of the signals corresponding to the different arrangements was possible. Additionally, the copper­(I) complex shows reversible redox activity in solution. The combination of structural flexibility of a multidentate ligand and the positive redox properties of the resulting complexes comprises key factors for a possible application of such compounds in transition-metal catalysis. Via a reorganization of the ligand, occurring transition states could be stabilized, and selectivity might be enhanced.
ISSN:0020-1669
1520-510X
DOI:10.1021/acs.inorgchem.0c03334