AI Article Synopsis
- The study investigates the biothiols sensing mechanism of a specific fluorescent sensor (DCO) using density functional theory (DFT) methods.
- The results show that excited-state intermolecular hydrogen bonding (H-B) significantly impacts fluorescence emissions in DCO and its product (DCOT).
- The findings indicate that hydrogen bonds affect fluorescence differently: they weaken in DCOT, enhancing its emission, while they strengthen in DCO, leading to a weaker emission and a blue shift in its UV-Vis absorption spectrum.
Article Abstract
The biothiols sensing mechanism of (E)-7-(diethylamino)-3-(2-nitrovinyl)-2H-chromen-2-one (DCO) has been investigated using the density functional theory (DFT) and time-dependent DFT methods. The theoretical results indicate that the excited-state intermolecular hydrogen bonding (H-B) plays an important role for the biothiols sensing mechanism of the fluorescence sensor DCO. Multiple H-B interaction sites exist in DCO and in its Michael addition product DCOT, which then induce the formation of the H-B complexes with water molecules, DCOH2 and DCOTH4. In the first excited state, the intermolecular H-Bs between water molecule and DCO in DCOH2 are cooperatively and generally strengthened and thus induced the weak fluorescence emission of DCO, while the cooperative H-Bs between water molecule and DCOT in DCOTH4 are overall weakened and thus responsible for the enhanced fluorescence emission of DCOT. Moreover, the theoretical results suggest that the blue shift of the UV-Vis absorption spectrum of DCOT can be attributed to the relatively weak excited-state intramolecular charge transfer in DCOT compared to DCO.
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