Metal Ligand Redox Interaction In The Multielectron Chemistry Of Porphyrinogen Coordination Compounds
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Metal-ligand Redox Interaction in the Multielectron Chemistry of Porphyrinogen Coordination Compounds
Author | : Julien Bachmann |
Publisher | : |
Total Pages | : 257 |
Release | : 2006 |
Genre | : |
ISBN | : |
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(Cont.) Crystallographic analysis shows that both anionic oxidation states contain the reduced ligand, whereas the dicationic state is based on the oxidized ligand (with two C - C bonds). Paramagnetic NMR confirms the structures in solution. Spectroscopies (EPR, Mössbauer) allow the assignment of well-defined individual oxidation and spin states states for the metal within each overall oxidation state of the complex (Chapter VI). The iron porphyrinogen dication is an oxidant based on an iron(II) center; it oxidizes iodide to diiodine (Chapter VII). The cobalt(II) porphyrinogen dianion can take up two protons, then photoreact to yield reduction of at least one proton to a metalbound hydride, as evidenced by infrared spectroscopy (Chapter VIII). Overall, the results afford a picture of metal-porphyrinogens including structure, electronic structure, and reactivity. The ligand supplements the central metal ion by functioning as a multielectron reservoir. Therefore, the (metal-based) coordination and (ligand-based) redox properties of a given porphyrinogen.
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