Abstract
Dual functional fluorescence nanosensors have many potential applications in biology and medicine. Monitoring temperature with higher precision at localized small length scales or in a nanocavity is a necessity in various applications. As well as the detection of biologically interesting metal ions using low-cost and sensitive approach is of great importance in bioanalysis. In this paper, we describe the preparation of dual-function highly fluorescent B, N-co-doped carbon nanodots (CDs) that work as chemical and thermal sensors. The CDs emit blue fluorescence peaked at 450 nm and exhibit up to 70% photoluminescence quantum yield with showing excitation-independent fluorescence. We also show that water-soluble CDs display temperature-dependent fluorescence and can serve as highly sensitive and reliable nanothermometers with a thermo-sensitivity 1.8% °C−1, and wide range thermo-sensing between 0–90 °C with excellent recovery. Moreover, the fluorescence emission of CDs are selectively quenched after the addition of Fe2+ and Fe3+ ions while show no quenching with adding other common metal cations and anions. The fluorescence emission shows a good linear correlation with concentration of Fe2+ and Fe3+ (R2 = 0.9908 for Fe2+ and R2 = 0.9892 for Fe3+) with a detection limit of of 80.0 ± 0.5 nM for Fe2+ and 110.0 ± 0.5 nM for Fe3+. Considering the high quantum yield and selectivity, CDs are exploited to design a nanoprobe towards iron detection in a biological sample. The fluorimetric assay is used to detect Fe2+ in iron capsules and total iron in serum samples successfully.
Highlights
Dual functional fluorescence nanosensors have many potential applications in biology and medicine
Carbon dots take the lead as temperature detectors establishing great potential as a probe for the detection of temperature in complicated environments such as biological media due to their unique properties and small size comparing to the other nanomaterials[6,12,13,14]
Carbon dots are a class of advanced fluorescent nanomaterials, that are becoming ever more favored lately for their facile fabrication, large-scale production, good biocompatibility, low toxicity, and stability[23,24]. Owing to their capability of up-conversion and down-conversion, superiority in photostability, fluorescence non-blinking emission and environment friendliness in comparison to organic dyes or semiconductor quantum dots (QDs) or metal nanoparticles, carbon nanodots (CDs) are more appropriate to be used as fluorescent nanosensors by an increase in fluorescence emissions or quenching[25,26]
Summary
Dual functional fluorescence nanosensors have many potential applications in biology and medicine. The clear solution was completed to 100 mL with DI water for the fluorescence measurement.[100] μL of carbon dots solution was mixed with 1 mL of capsule sample and different concentrations of Fe2+ standard solutions were added.
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