Synthesis, crystal structures and supramolecular architectures of square pyramidal Cu(II) complexes containing aromatic chelating N,N’-donor ligands

Jennifer, Samson Jegan; Muthiah, Packianathan Thomas

doi:10.1186/1752-153x-8-42

Cited by 14 publications

(5 citation statements)

References 66 publications

(81 reference statements)

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“…All boxes were initially constructed based on 1.18 or 1.79 g/cm 3 , which is close to the experimental density of Cu-Phen complexes or polymers. − After the optimization, the dynamics procedure was carried out as follows: (a) NVT ensemble MD simulation for 100 ps at 300 K; (b) NPT ensemble MD simulation for 100 ps at 300 K; (c) annealing simulations are run for 50 ps every 100 K from 300 to 600 K and then from 600 to 300 K; and (d) NPT ensemble MD simulation for 500 ps at 300 K. Steps c through d should be repeated three times. Finally, a 5 ns equilibration at NPT was carried out.…”

Section: Computational Models and Methodsmentioning

confidence: 99%

Mechanisms of the Higher Catalytic Activity of Polymer Forms over Complexes for Non-pyrolytic Mono-1,10-phenanthroline-Coordinated Cu²⁺ (Cu-N₂ Type) in an Oxygen Reduction Reaction

Liu

Mou

et al. 2023

Inorg. Chem.

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In this paper, we have thoroughly investigated the ORR mechanism of non-pyrolytic mono-1,10-phenanthroline-coordinated Cu2+ (Cu-N2 type) complexes and polymers by molecular dynamics and quantum mechanics calculation. In contrast to the complex-catalyzed ORR, which follows a direct four-electron pathway along intermediates of Cu(I)-Phen, the polymer-catalyzed ORR follows an indirect four-electron pathway by intermediates of Cu(II)-Phen. By analyzing the structure, spin population, electrostatic potential (ESP), and density of states, we confirmed that the higher ORR catalytic activity of the polymer is due to the conjugation effect of coplanar phenanthroline and Cu(II) in the planar reactants or at the base of the square-pyramidal intermediates. The conjugation effect allows the highest ESP to be located near the active center Cu(II), while the lower ESPs are distributed on the phenanthroline, which is very favorable for the reduction current. This will serve as a theoretical foundation for the development of new highly efficient ORR non-pyrolytic CuN2 polymer catalysts.

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Section: Computational Models and Methodsmentioning

confidence: 99%

Mechanisms of the Higher Catalytic Activity of Polymer Forms over Complexes for Non-pyrolytic Mono-1,10-phenanthroline-Coordinated Cu²⁺ (Cu-N₂ Type) in an Oxygen Reduction Reaction

Liu

Mou

et al. 2023

Inorg. Chem.

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“…Nowadays, there is a significant interest in 1,10-phenanthroline ligands as nitrogen-containing building blocks for coordination and organometallic chemistry. , These ligands have functionalized substituents that enhance their efficiency in separating f-elements. − Additionally, the presence of chiral centers in these ligands allows for asymmetric complex catalysis. − Half-sandwich Ru(II), Ir(III), and Rh(III) complexes with substituted 1,10-phenanthrolines have been proven to be highly effective catalysts. − Furthermore, Ru(II) complexes of substituted phenanthrolines have shown potential in treating brain cancer. , Copper(II) and nickel(II) complexes with asymmetric phenanthroline derivatives have also been extensively studied. − Unsymmetrical 1,10-phenanthrolines have been identified as promising ligands for Ru(II) complexes to act as photosensitizers in solar cells . Moreover, a Ru-complex of 4,7-diaminosubstituted 1,10-phenanthroline has been reported to be useful for selective dual-channel detection of Cu(II) ions .…”

Section: Introductionmentioning

confidence: 99%

4-Oxo-7-fluoro-1,10-phenanthroline-2,9-diamides: Synthesis, Structural Features, Lanthanide Complexes, and Am(III)/Ln(III) Solvent Extraction

Avagyan,

Lemport,

Roznyatovsky

et al. 2023

Inorg. Chem.

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A highly efficient synthetic approach was developed for the synthesis of unsymmetrical 1,10-phenanthroline-2,9-diamides with two different substituents in the fourth and seventh positions of the phenanthroline core. The structures of these ligands were confirmed using various spectral methods including 2D-NMR and X-ray analysis. Quantum chemical calculations supported the presence of tautomeric forms of these ligands. Furthermore, it was discovered that these compounds exhibit polydentate ligand behavior toward lanthanide nitrates. The structural characteristics of the complexes formed between these ligands and lanthanide nitrates were investigated both in the solid state and in solution. To further understand the binding properties of these novel unsymmetrical ligands, the binding constants for potential complexes were quantitatively measured by using UV–vis spectrophotometric titration. This allowed for a comprehensive analysis of the binding affinity and stability of these complexes. Extraction experiments of f-elements were performed for symmetrical and unsymmetrical diamides. Overall, this study presents significant advancement in the synthesis and characterization of unsymmetrical 1,10-phenanthroline-2,9-diamides and provides valuable insights into their potential applications as polydentate ligands for lanthanide nitrates.

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“…To coordinate compound formation, 2,2'-bipyridine (bipy) and phenanthroline are used due to their effectiveness in catalysis, electrochemistry, analytical chemistry and biochemistry [1]. These ligands have extended π-systems and their complexes show various π-π interactions that participate in the supramolecular architecture [2].…”

Section: Introductionmentioning

confidence: 99%

Synthesis and crystal structure of the copper (II) carboxylate with 2,2-bipyridine, [Cu(4-mba)2(bipy)(H2O)]

2023

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The new Cu(II) carboxylate complex, aqua(2,2'-bipyridine-κ2N,N')bis(4-methylbenzoato-κO)copper(II) [Cu(4-mba)2(bipy)(H2O)] (4-mba: 4-methylbenzoate, bipy: 2,2'-bipyridine) was synthesized, and the molecular structure of the complex was characterized by the single crystal X-ray diffraction technique. The X-ray diffraction analysis indicated that the asymmetric unit comprises an independent molecule. Crystal data for [Cu(4-meb)2(2,2-bipy)(H2O)]: Triclinic, space group P-1 (no. 2), a = 7.0452(13) Å, b = 11.260(2) Å, c = 16.635(3) Å, α = 103.543(7)°, β = 91.002(7)°, γ = 104.106(6)°, V = 1240.4(4) Å3, Z = 2, T = 296 K, μ(MoKα) = 0.918 mm-1, Dcalc = 1.360 g/cm3, 51364 reflections measured (5.054° ≤ 2Θ ≤ 57.38°), 6258 unique (Rint = 0.0398, Rsigma = 0.0284) which were used in all calculations. The final R1 was 0.0392 (I > 2σ(I)) and wR2 was 0.1021 (all data). The Cu(II) ion was found to be coordinated with two nitrogen atoms of the 2,2'-bipyridine ligand, two oxygen atoms of the 4-methyl benzoate molecule, and one oxygen atom of the aqua ligand. In the three-dimensional supramolecular architecture, molecules are connected through pairs of O-H···O and C-H···O intermolecular interactions, consisting of chains. The molecule also demonstrates Cg···Cg intermolecular interactions between six-membered rings of 2,2'-bipyridine.

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Synthesis, crystal structures and supramolecular architectures of square pyramidal Cu(II) complexes containing aromatic chelating N,N’-donor ligands

Cited by 14 publications

References 66 publications

Mechanisms of the Higher Catalytic Activity of Polymer Forms over Complexes for Non-pyrolytic Mono-1,10-phenanthroline-Coordinated Cu²⁺ (Cu-N₂ Type) in an Oxygen Reduction Reaction

Mechanisms of the Higher Catalytic Activity of Polymer Forms over Complexes for Non-pyrolytic Mono-1,10-phenanthroline-Coordinated Cu²⁺ (Cu-N₂ Type) in an Oxygen Reduction Reaction

4-Oxo-7-fluoro-1,10-phenanthroline-2,9-diamides: Synthesis, Structural Features, Lanthanide Complexes, and Am(III)/Ln(III) Solvent Extraction

Synthesis and crystal structure of the copper (II) carboxylate with 2,2-bipyridine, [Cu(4-mba)2(bipy)(H2O)]

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Synthesis, crystal structures and supramolecular architectures of square pyramidal Cu(II) complexes containing aromatic chelating N,N’-donor ligands

Cited by 14 publications

References 66 publications

Mechanisms of the Higher Catalytic Activity of Polymer Forms over Complexes for Non-pyrolytic Mono-1,10-phenanthroline-Coordinated Cu2+ (Cu-N2 Type) in an Oxygen Reduction Reaction

Mechanisms of the Higher Catalytic Activity of Polymer Forms over Complexes for Non-pyrolytic Mono-1,10-phenanthroline-Coordinated Cu2+ (Cu-N2 Type) in an Oxygen Reduction Reaction

4-Oxo-7-fluoro-1,10-phenanthroline-2,9-diamides: Synthesis, Structural Features, Lanthanide Complexes, and Am(III)/Ln(III) Solvent Extraction

Synthesis and crystal structure of the copper (II) carboxylate with 2,2-bipyridine, [Cu(4-mba)2(bipy)(H2O)]

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Mechanisms of the Higher Catalytic Activity of Polymer Forms over Complexes for Non-pyrolytic Mono-1,10-phenanthroline-Coordinated Cu²⁺ (Cu-N₂ Type) in an Oxygen Reduction Reaction

Mechanisms of the Higher Catalytic Activity of Polymer Forms over Complexes for Non-pyrolytic Mono-1,10-phenanthroline-Coordinated Cu²⁺ (Cu-N₂ Type) in an Oxygen Reduction Reaction