Electronic Structure of Metallophlorins: Lessons from Iridium and Gold Phlorin Derivatives
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https://hdl.handle.net/10037/35049Date
2024-05-14Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Larsen, Simon; Adewuyi, Joseph A.; Kolle Ekaney, Thomas; Conradie, Jeanet; Rousselin, Yoann; Ung, Gaël; Ghosh, AbhikAbstract
Phlorins have long remained underexplored relative to their fully conjugated counterparts, such as porphyrins, hydroporphyrins, and corroles. Herein, we have attempted to bridge that knowledge gap with a scalar-relativistic density functional theory (DFT) study of unsubstituted iridium and gold phlorin derivatives and a multitechnique experimental study of iridium-bispyridine and gold complexes of 5,5-dimethyl-10,15,20-tris(pentafluorophenyl)phlorin. Theory and experiments concur that the phlorin derivatives exhibit substantially smaller HOMO–LUMO gaps, as reflected in a variety of observable properties. Thus, the experimentally studied Ir and Au complexes absorb strongly in the near-infrared (NIR), with absorption maxima at 806 and 770 nm, respectively. The two complexes are also weakly phosphorescent with emission maxima at 950 and 967 nm, respectively. They were also found to photosensitize singlet oxygen formation, with quantum yields of 40 and 28%, respectively. The near-infrared (NIR) absorption and emission are consonants with smaller electrochemical HOMO–LUMO gaps of ∼1.6 V, compared to values of ∼2.1 V, for electronically innocent porphyrins and corroles. Interestingly, both the first oxidation and reduction potentials of the Ir complex are some 600 mV shifted to more negative potentials relative to those of the Au complex, indicating an exceptionally electron-rich macrocycle in the case of the Ir complex.
Publisher
American Chemical SocietyCitation
Larsen, Adewuyi, Kolle Ekaney, Conradie, Rousselin, Ung, Ghosh. Electronic Structure of Metallophlorins: Lessons from Iridium and Gold Phlorin Derivatives. Inorganic Chemistry. 2024;63(21):9842-9853Metadata
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