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Article Abstract
There is growing interest in the electronic properties of metalloporphyrins especially in relation to their interactions with other molecular species in their local environment. Here, UV-VIS laser photodissociation spectroscopy in vacuo has been applied to an iron-centred metalloporphyrin (FeTPP) and its N-aromatic adduct with pyridine (py) to determine the electronic effect of complexation. Both the metalloporphyrin (FeTPP) and pyridine adduct (FeTPP⋅py) absorb strongly across the spectral region studied (652-302 nm: 1.91-4.10 eV). Notably, a large blue shift was observed for the dominant Soret band (41 nm) upon complexation (0.47±0.02 eV), indicative of strong pyridine binding. Significant differences in the profiles (i. e. number and position of bands) of the electronic spectra are evident comparing FeTPP and FeTPP⋅py. Time-dependent density functional theory calculations were used to assign the spectra, revealing that the Fe spin-state flips from S=3/2 to S=5/2 upon complexation with pyridine. For FeTPP, all bright spectral transitions are found to be π-π* in character, with electron density variously distributed across the porphyrin and/or its phenyl substituents. Similar electronic excitations are observed for FeTPP⋅py, with an additional bright transition which involves charge transfer from the porphyrin to the pyridine moiety.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11648826 | PMC |
| http://dx.doi.org/10.1002/cphc.202400669 | DOI Listing |
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