Azobenzene derivatives have long been studied for their photochromic behaviour. One of the greatest challenges in this field is the quantitative (E) to (Z) photoconversion triggered by visible light irradiation. In this work, the synthesis and characterization of CuInS2 quantum dots (CIS-QDs) appended with azobenzene units are reported: quantitative (E) -> (Z) isomerisation is obtained by visible light (e.g., lambda(ex) = 533 nm). Interestingly, catalytic amounts of CIS-QDs allow the full photoconversion of ungrafted (E)-azobenzene derivatives into the corresponding (Z)-isomers using visible light. This peculiar behaviour is associated with the direct complexation of the (Z)-isomer on the QD surface.
Ziani, Z., Bellatreccia, C., Battaglia, F.P., Morselli, G., Gradone, A., Ceroni, P., et al. (2024). Copper indium sulfide quantum dots enabling quantitative visible light photoisomerisation of (E)-azobenzene chromophores. NANOSCALE, 16(27), 12947-12956 [10.1039/d4nr01997k].
Copper indium sulfide quantum dots enabling quantitative visible light photoisomerisation of (E)-azobenzene chromophores
Ziani, Zakaria;Bellatreccia, Caterina;Battaglia, Filippo Piero;Morselli, Giacomo;Gradone, Alessandro;Ceroni, Paola;Villa, Marco
2024
Abstract
Azobenzene derivatives have long been studied for their photochromic behaviour. One of the greatest challenges in this field is the quantitative (E) to (Z) photoconversion triggered by visible light irradiation. In this work, the synthesis and characterization of CuInS2 quantum dots (CIS-QDs) appended with azobenzene units are reported: quantitative (E) -> (Z) isomerisation is obtained by visible light (e.g., lambda(ex) = 533 nm). Interestingly, catalytic amounts of CIS-QDs allow the full photoconversion of ungrafted (E)-azobenzene derivatives into the corresponding (Z)-isomers using visible light. This peculiar behaviour is associated with the direct complexation of the (Z)-isomer on the QD surface.| File | Dimensione | Formato | |
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