Transition-Metal Isocorroles as Singlet Oxygen Sensitizers
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https://hdl.handle.net/10037/29929Date
2023-05-04Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
Building on a highly efficient synthesis of pyrrole-appended isocorroles,
we have worked out conditions for manganese, palladium, and platinum insertion into
free-base 5/10-(2-pyrrolyl)-5,10,15-tris(4-methylphenyl)isocorrole, H2[5/10-(2-py)-
TpMePiC]. Platinum insertion proved exceedingly challenging but was finally
accomplished with cis-Pt(PhCN)2Cl2. All the complexes proved weakly phosphorescent
in the near-infrared under ambient conditions, with a maximum phosphorescence
quantum yield of 0.1% observed for Pd[5-(2-py)TpMePiC]. The emission maximum was
found to exhibit a strong metal ion dependence for the 5-regioisomeric complexes but
not for the 10-regioisomers. Despite the low phosphorescence quantum yields, all the
complexes were found to sensitize singlet oxygen formation with moderate to good
efficiency, with singlet oxygen quantum yields ranging over 21−52%. With significant
absorption in the near-infrared and good singlet oxygen-sensitizing ability, metalloisocorroles deserve examination as photosensitizers in the photodynamic therapy of
cancer and other diseases.
Publisher
ACS PublicationsCitation
Larsen, Adewuyi, Ung, Ghosh. Transition-Metal Isocorroles as Singlet Oxygen Sensitizers. Inorganic Chemistry. 2023Metadata
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