1. Enhancing two-photon uncaging sensitivity in symmetrical dimeric conjugated coumarin cages: Role of the coupling core.
- Author
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Dubois, Victor, Klausen, Maxime, Castet, Frédéric, Verlhac, Jean-Baptiste, and Blanchard-Desce, Mireille
- Subjects
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INFORMATION display systems , *COUMARINS , *ELECTRON donors , *CARBAZOLE - Abstract
[Display omitted] • Uncaging efficiency is retained in dimeric DEAC conjugated structures. • Two-photon absorption properties (2PA) are enhanced by up to two order of magnitude. • The aromatic cores influence both the uncaging efficiency and the 2PA properties. • Both electron-releasing and electron-withdrawing cores lead to unprecedented 2P uncaging sensitivities (550 GM). A series of symmetrical conjugated dimeric coumarinyl cages has been synthesized by grafting 7-diethlyaminocoumarin (DEAC) cages via π-linkers onto different aromatic cores displaying various electronic character (electron-withdrawing: benzobisthiazole BBTz, electron-donating: carbazole or ambivalent: fluorenyl). Due to their symmetrical design, all conjugated dimeric derivatives showed enhanced two-photon absorption at 730 nm, the electron-withdrawing core leading to the highest response (over 3000 GM). All dimeric derivatives retained the uncaging ability of the DEAC cage, with a strong influence of the nature of the core on the uncaging quantum yield. While the fluorenyl core led to an uncaging quantum yield similar to DEAC, the BBTz core led to a twice larger uncaging quantum yield and the carbazole core to even larger uncaging quantum yield (60 %). As a result, both electron-donating and electron-withdrawing cores lead to symmetrical dimeric DEAC derivatives showing unprecedented two-photon uncaging photo-sensitivity (up to 550 GM). [ABSTRACT FROM AUTHOR]
- Published
- 2023
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