Based on the inner filter effect and charge transfer dual response mechanism, a dual response ratiometric fluorescent probe (D-RFP) with two reversible signal changes for sensing HO and glucose was developed. The D-RFP was proposed by embedding glycine-derived carbon dots (CDs) (λ = 400 nm) into silica nanoparticles and covalently linking CdTe quantum dots (QDs) (λ = 600 nm) onto the surface of silica nanoparticles. When silver nanoparticles (Ag NPs) were mixed with D-RFP, the fluorescence intensity of CDs can be quenched by Ag NPs via the inner filter effect. With the addition of HO, Ag NPs were etched to silver ions, thus recovering the fluorescence of CDs. In the meantime, fluorescence of QDs was quenched by Agvia charge transfer. Under optimal conditions, D-RFP displayed high sensitivity toward HO with a detection limit of 0.28 μM. Based on the conversion of glucose into HO, D-RFP can also be exploited for glucose sensing with a detection limit of 0.59 μM. The approach developed can be applied to monitor glucose levels in human serum samples with satisfactory results, and the results of the heathy and diabetic patients can be distinguished by the naked eye. Moreover, this method provides a new idea for designing a high-sensitivity D-RFP.
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