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Carbon Dioxide Electroreduction and Formic Acid Oxidation by Formal Nickel(I) Complexes of Di-isopropylphenyl Bis-iminoacenaphthene.

Vera V KhrizanforovaRobert R FayzullinSergey V KartashovVladimir I MorozovMikhail N KhrizanforovTatyana P GerasimovaYulia H Budnikova
Published in: Chemistry (Weinheim an der Bergstrasse, Germany) (2024)
Processing CO 2 into value-added chemicals and fuels stands as one of the most crucial tasks in addressing the global challenge of the greenhouse effect. In this study, we focused on the complex (dpp-bian)NiBr 2 (where dpp-bian is di-isopropylphenyl bis-iminoacenaphthene) as a precatalyst for the electrochemical reduction of CO 2 into CH 4 as the sole product. Cyclic voltammetry results indicate that the realization of a catalytically effective pattern requires the three-electron reduction of (dpp-bian)NiBr 2 . The chemically reduced complexes [K(THF) 6 ] + [(dpp-bian)Ni(COD)] - and [K(THF) 6 ] + [(dpp-bian) 2 Ni] - were synthesized and structurally characterized. Analyzing the data from the electron paramagnetic resonance study of the complexes in solutions, along with quantum-chemical calculations, reveals that the spin density is predominantly localized at their metal centers. The superposition of trajectory maps of the electron density gradient vector field ∇ ρ r ${\nabla \rho \left({\bf r}\right)}$ and the electrostatic force density field F e s r ${{{\bf F}}_{{\rm e}{\rm s}}\left({\bf r}\right)}$ per electron, as well as the atomic charges, discloses that, within the first coordination sphere, the interatomic charge transfer occurs from the metal atom to the ligand atoms and that the complex anions can thus be formally described by the general formulae (dpp-bian) 2- Ni + (COD) and (dpp-bian) 2 - Ni + . It was also shown that the reduced nickel complexes can be oxidized by formic acid; resulting from this reaction, the two-electron and two-proton addition product dpp-bian-2H is formed.
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