1. A ratiometric fluorescent sensor with dual response of Fe3+/Cu2+ based on europium post-modified sulfone-metal-organic frameworks and its logical application.
- Author
-
Zhang, Yu and Yan, Bing
- Subjects
- *
SULFONES , *EUROPIUM compounds , *RATIOMETERS (Electric meters) , *DETECTORS , *ION analysis - Abstract
Abstract In this work, a sulfone-functionalized metal organic frameworks (MOFs) (CAU-11) formulated as [Al(OH)(SDBA)]·0.25DMF (H 2 SDBA = 4, 4′-sulfonyldibenzoic acid) has been successfully constructed under solvothermal conditions. Next, a europium ion post-functionalized compound (Eu3+@CAU-11) with bright red fluorescence has been obtained by postsynthetic modification (PSM). Because of its excellent luminescence and robust framework, we design this compound as a ratiometric fluorescent probe (I L / I Eu) for sensing application. In the investigation process, what is surprising is that Fe3+ can quench the fluorescence of Eu3+@CAU-11 both in aqueous solutions and in N, N-dimethylformamide (DMF) while Cu2+ can only quench the fluorescence of it in DMF. It represents a rare example of a sensor based on a metal-organic framework which can dually sense and distinguish two quenching metal ions in different solutions simultaneously. To better explain this phenomenon, the probable sensing mechanism of the two metal ions has also been discussed in this paper. More importantly, we have designed this ratiometric fluorescent sensor as a combinational molecular logic gate for further logical application because of its sample synthesis process and favorable luminescent properties. Graphical abstract fx1 Highlights • A Eu3+ postsynthetic modified (PSM)a sulfone-functionalized MOFs (CAU-11) as probe. • A ratiometric fluorescent probe (I L / I Eu) for sensing metal ions both in aqueous solutions and in DMF (N, N-dimethylformamide). • An effective sensor for detecting Fe3+ and Cu2+. • Cu2+ has different fluorescence responses in different solvents. • A combinational logic gate to distinguish these two quenching ions. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF