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Article Abstract
Singlet dioxygen (O) plays a pivotal role as the active agent in photodynamic therapy (PDT) for cancer treatment, as well as in the photo-inactivation of antibiotic-resistant microbes (antimicrobial photodynamic therapy, aPDT). The ability to sensitively monitor the production and behavior of ¹O₂ following its photo-catalytic generation is crucial for developing effective therapeutic strategies. Optical sensor molecules that respond to ¹O₂ through changes in absorption or, more sensitively, fluorescence, are suitable choices. While most monitors report O via altered absorption spectra, only few compounds respond by the onset of fluorescence, even fewer based on lanthanide luminescence. By embedding a novel lanthanide complex (Eu) into polystyrene nanoparticles (beads), we achieved close to a 500-fold emission intensity boost in the presence of O, very long decay times of up to 879 µs and unprecedented stability in acidic and basic media. Furthermore, the beads present a high-surface charge (>+30 mV), yielding stable aqueous dispersions, which we exploited in a preliminary "proof of principle" staining experiment of (negatively charged) bacterial surfaces. The straightforward synthesis circumvents intricate preparative steps and restrictive costs. The decay characteristics furthermore pave the road to time-gated measurements, that is, to the suppression of interfering autofluorescence from biological samples.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12188158 | PMC |
| http://dx.doi.org/10.1002/chem.202500943 | DOI Listing |
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