The electrochemical reduction of complexes [Fe2(CO)4(κ2-phen)(μ-xdt)] (phen=1,10-phenanthroline; xdt=pdt (1), adtiPr (2)) in MeCN-[Bu4N][PF6] 0.2 m is described as a two-reduction process. DFT calculations show that 1 and its monoreduced form 1− display metal- and phenanthroline-centered frontier orbitals (LUMO and SOMO) indicating the non-innocence of the phenanthroline ligand. Two energetically close geometries were found for the doubly reduced species suggesting an intriguing influence of the phenanthroline ligand leading to the cleavage of a Fe−S bond as proposed generally for this type of complex or retaining the electron density and avoiding Fe−S cleavage. Extension of calculations to other complexes with edt, adtiPr bridge and even virtual species [Fe2(CO)4(κ2-phen)(μ-adtR)] (R=CH(CF3)2, H) or [Fe2(CO)4(κ2-phen)(μ-pdtR)] (R=CH(CF3)2, iPr) showed that the relative stability between both two-electron-reduced isomers depends on the nature of the bridge and the possibility to establish a remote anagostic interaction between the iron center {Fe(CO)3} and the group carried by the bridged-head atom of the dithiolate group.

Schollhammer, P., Arrigoni, F., Elleouet, C., Mele, A., Pétillon, F., De Gioia, L., et al. (2020). Insights into the two-electron reductive process of [FeFe]H2ase biomimetics. Cyclic voltammetry and DFT investigation on chelates control of redox properties of [Fe2(CO)4(κ2-chelate)(µ-dithiolate)]. CHEMISTRY-A EUROPEAN JOURNAL, 26(72), 17536-17545 [10.1002/chem.202003233].

Insights into the two-electron reductive process of [FeFe]H2ase biomimetics. Cyclic voltammetry and DFT investigation on chelates control of redox properties of [Fe2(CO)4(κ2-chelate)(µ-dithiolate)]

Arrigoni, Federica
Primo
;
De Gioia, Luca;Zampella, Giuseppe
2020

Abstract

The electrochemical reduction of complexes [Fe2(CO)4(κ2-phen)(μ-xdt)] (phen=1,10-phenanthroline; xdt=pdt (1), adtiPr (2)) in MeCN-[Bu4N][PF6] 0.2 m is described as a two-reduction process. DFT calculations show that 1 and its monoreduced form 1− display metal- and phenanthroline-centered frontier orbitals (LUMO and SOMO) indicating the non-innocence of the phenanthroline ligand. Two energetically close geometries were found for the doubly reduced species suggesting an intriguing influence of the phenanthroline ligand leading to the cleavage of a Fe−S bond as proposed generally for this type of complex or retaining the electron density and avoiding Fe−S cleavage. Extension of calculations to other complexes with edt, adtiPr bridge and even virtual species [Fe2(CO)4(κ2-phen)(μ-adtR)] (R=CH(CF3)2, H) or [Fe2(CO)4(κ2-phen)(μ-pdtR)] (R=CH(CF3)2, iPr) showed that the relative stability between both two-electron-reduced isomers depends on the nature of the bridge and the possibility to establish a remote anagostic interaction between the iron center {Fe(CO)3} and the group carried by the bridged-head atom of the dithiolate group.
Articolo in rivista - Articolo scientifico
cyclic voltammetry; density functional calculations; diiron dithiolate bioinspired compound; non-innocent ligands; potential inversion;
English
28-lug-2020
2020
26
72
17536
17545
reserved
Schollhammer, P., Arrigoni, F., Elleouet, C., Mele, A., Pétillon, F., De Gioia, L., et al. (2020). Insights into the two-electron reductive process of [FeFe]H2ase biomimetics. Cyclic voltammetry and DFT investigation on chelates control of redox properties of [Fe2(CO)4(κ2-chelate)(µ-dithiolate)]. CHEMISTRY-A EUROPEAN JOURNAL, 26(72), 17536-17545 [10.1002/chem.202003233].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/292186
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