Review of DFT-simulated and experimental electrochemistry properties of the polypyridyl Row-1 Mn, Fe & Co, and Group-8 Fe, Ru and Os MLCT complexes
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https://hdl.handle.net/10037/27422Date
2022-01-30Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
Ruthenium had up to date been pivotal in electro- and photocatalytic applications involving reduction of CO2
and H2O, and dye-sensitized solar cells. Commercial applications would seek use of earth-abundant metals
instead. Towards this goal, it is key to review the synthesis, electrochemical and spectroscopical properties of
associated metal-to-ligand charge transfer complexes of row-4 (Mn, Fe & Co) and column-8 (Fe, Ru & Os). The
present report is limited to data obtained under exactly similar conditions, providing scientifically valid correlations. Only tris-coordinated bipyridyl and phenanthroline complex derivatives are considered, being representative of catalysts and dyes traditionally used in the above-mentioned fields. The accuracy of theoretical DFT
techniques to simulate complex properties is highlighted.
Publisher
ElsevierCitation
Von Eschwege KG, Conradie J. Review of DFT-simulated and experimental electrochemistry properties of the polypyridyl Row-1 Mn, Fe & Co, and Group-8 Fe, Ru and Os MLCT complexes. Electrochemistry communications. 2022;136Metadata
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