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Structure-Function Analysis of Hydroxy-1,8-Naphthalimide Photoacids for ESPT-Driven H2S Probes.

Created on 29 Jul 2025

Authors

Trevor Dvorak, Sunayn Cheku, Linus Borer, Haley Hernandez-Sandoval, Kimberly A Carlson, Haishi Cao

Published in

ACS omega. Volume 10. Issue 28. Pages 31138-31146. Jul 22, 2025. Epub Jul 11, 2025.

Abstract

Hydroxy-1,8-naphthalimides are a class of fluorophores known for their strong photoacidity, which facilitates excited-state proton transfer (ESPT) and results in red-shifted fluorescence emission. Based on this unique photophysical behavior, we synthesized and evaluated four reaction-based fluorescent probes (L1-L4) for the selective detection of hydrogen sulfide (H2S). Structure-function analysis revealed that the position of the hydroxyl substituent plays a critical role in modulating ESPT efficiency, emission wavelength, and overall probe sensitivity. Specifically, L1 (3-hydroxy) and L3 (4-hydroxy) exhibited distinct fluorescence maxima at 617 and 550 nm, respectively. Both probes demonstrated exceptionally fast reactivity with H2S, with L3 showing enhanced sensitivity attributed to the increased stability of its 4-naphtholate intermediate. In contrast, L4, bearing a 2,4-dinitrobenzene ether (DNBE) group, showed reduced sensitivity but maintained high selectivity for H2S over biologically relevant thiols such as l-cysteine and glutathione. These results defined key structure-activity relationships and offered design strategies for developing naphthalimide-based fluorescent probes for detecting reactive sulfur species.

PMID:
40727725
Bibliographic data and abstract were imported from PubMed on 29 Jul 2025.

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