Electronic effect of β‐diketonato ligands on the redox potential of <i>fac</i> and <i>mer</i> tris(β‐diketonato) iron(III) complexes: A density functional theory study and molecular electrostatic potential analysis

Adeniyi, Adebayo A.; Conradie, Jeanet

doi:10.1002/qua.26036

Cited by 8 publications

(3 citation statements)

References 35 publications

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“…The details of computing the redox potential from the thermodynamic cycle are described in our previous studies. [29][30][31] The equations that were used can be summarised as follows: 32 33 and the solvation energies of the redox calculation (ΔΔG sol ) were determined by:…”

Section: Methodsmentioning

confidence: 99%

Mo Fischer Carbene Complexes: A DFT Study on the Prediction of Redox Potentials

Adeniyi

Landman

Conradie

2021

J. Electrochem. Soc.

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The electronic properties of Fischer carbenes [Mo(CO)5−n(Ln){C(Y)Ar}] (n = 1–2, Ar = aryl group) can be tuned by changing the metal environment and their carbene substituents. The effect of substituting the carbonyl ligands of the carbenes, in the presence of Y = OEt, NH2 or NHCy as heteroatom substituent, on the redox potential and electronic properties of a series of experimentally known Mo carbenes has been examined using density functional theory methods, to get theoretical ways of predicting the experimental 1e− reduction (M−) and the 2e− oxidation potential. Several experimental redox potentials - theoretically calculated descriptor relationships were obtained that can be used to predict the reduction and the oxidation potential of the Mo Fischer carbene complexes.

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Section: Methodsmentioning

confidence: 99%

Mo Fischer Carbene Complexes: A DFT Study on the Prediction of Redox Potentials

Adeniyi

Landman

Conradie

2021

J. Electrochem. Soc.

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“…The EA that was used in the above calculation of reduction potential (E cell ), was computed using the all electron basis set 6-311 + G(2df,2p) for all atoms and the functional M06 as described in our previous studies [20][21][22]. The functional M06 is used for EA calculation that it used in the computation of the reduction potential because is known to be efficient for thermodynamic calculations [23].…”

Section: Computational Calculationsmentioning

confidence: 99%

“…This implies that as V(Mn) of the derivatives or isomers is becoming more negative, the stability also increases [44] and therefore the reduction potential becomes less favourable as it is shifted to more negative values. Reduction of the manganese(III) atom with the higher MESP potential on Mn is expected at a higher (less negative) potential [40,45,46], thus the order of reduction potential predicted by the calculated atomic V (Mn) value, is fac z-out > mer z-out > fac z-in > mer z-in, nearly the same as the order predicted by the calculated reduction potential, namely fac z-out > mer z-out > mer zin > fac z-in.…”

Section: Moleculementioning

confidence: 99%

Cyclic Voltammetric and DFT Analysis of the Reduction of Manganese(III) Complexes with 2‐Hydroxybenzophenones

Adeniyi

Conradie

2020

Electroanalysis

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A comprehensive understanding of the redox behaviour of manganese complexes is significant for its use in different industrial applications, including as redox mediator in dye sensitized solar cells. This study presents the experimental reduction potential of derivatives of manganese(III) complexes coordinated to 2-hydroxybenzophenones, showing that the first observed experimental reduction potential peak is located on the manganese atom, followed by a further ligand-based reduction. A density functional theory study shows that Jahn-Teller distortion has a larger impact on the theoretically determined reduction potential and molecular electrostatic potential at the manganese atom, than the impact of the isomeric forms (fac and mer) on the theoretically predicted reduction potential. Keywords: 2-Hydroxybenzophenone • manganese(III) • reduction • DFT Highlights * First reduction of manganese tris(2-hydroxybenzophenone) complexes is Mn based * Second reduction of manganese tris(2-hydroxybenzophenone) complexes is ligand-based * Influence of Jahn-Teller effect on the theoretically determined reduction potential * Influence fac and mer isomers on the theoretically determined reduction potential * Experimental and theoretical Mn(III/II) reduction of manganese tris(2-hydroxybenzophenone) [a] A

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Iron‐Catalyzed Wacker‐type Oxidation of Olefins at Room Temperature with 1,3‐Diketones or Neocuproine as Ligands**

et al. 2021

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Herein, we describe a convenient and general method for the oxidation of olefins to ketones using either tris(dibenzoylmethanato)iron(III) [Fe(dbm)3] or a combination of iron(II) chloride and neocuproine (2,9‐dimethyl‐1,10‐phenanthroline) as catalysts and phenylsilane (PhSiH3) as additive. All reactions proceed efficiently at room temperature using air as sole oxidant. This transformation has been applied to a variety of substrates, is operationally simple, proceeds under mild reaction conditions, and shows a high functional‐group tolerance. The ketones are formed smoothly in up to 97 % yield and with 100 % regioselectivity, while the corresponding alcohols were observed as by‐products. Labeling experiments showed that an incorporated hydrogen atom originates from the phenylsilane. The oxygen atom of the ketone as well as of the alcohol derives from the ambient atmosphere.

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Electronic effect of β‐diketonato ligands on the redox potential of fac and mer tris(β‐diketonato) iron(III) complexes: A density functional theory study and molecular electrostatic potential analysis

Cited by 8 publications

References 35 publications

Mo Fischer Carbene Complexes: A DFT Study on the Prediction of Redox Potentials

Mo Fischer Carbene Complexes: A DFT Study on the Prediction of Redox Potentials

Cyclic Voltammetric and DFT Analysis of the Reduction of Manganese(III) Complexes with 2‐Hydroxybenzophenones

Iron‐Catalyzed Wacker‐type Oxidation of Olefins at Room Temperature with 1,3‐Diketones or Neocuproine as Ligands**

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