Abstract
Over past decades, the multicolor carbon dots (M-CDs) have attracted enormous attentions due to their tunable photoluminescence and versatile applications. Herein, the nitrogen-doped (N-doped) M-CDs including green, chartreuse, and pink emissive CDs are successfully synthesized by ultrasonic treatment of kiwifruit juice with different additive reagents such as ethanol, ethylenediamine, and acetone. Owing to their strong fluorescence upon irradiation with 365 nm UV light, the highly water-soluble M-CDs present great potential in the anticounterfeit field as fluorescent inks. Particularly, the resulting green emission CDs (G-CDs) with excellent fluorescence and stability are applied as a label-free probe model for “on–off” detection of Fe3+. The fluorescence of G-CDs is significantly quenched by Fe3+ through static quenching. The nanoprobe demonstrates good selectivity and sensitivity toward Fe3+ with a detection limit of ~0.11 μM. Besides, the quenched fluorescence of G-CDs by Fe3+ can be recovered by the addition of PO43− or ascorbic acid (AA) into the CDs/Fe3+ system to realize the “off–on” fluorescent process. Furthermore, NOT and IMPLICATION logic gates are constructed based on the selection of Fe3+ and PO43− or AA as the inputs, which makes the G-CD-based sensors utilized as various logic gates at molecular level. Therefore, the N-doped M-CDs hold promising prospects as competitive candidates in monitoring the trace species, applications in food chemistry, anticounterfeit uses, and beyond.
Highlights
Carbon dots (CDs) have received increasing attention owing to their excellent biocompatibility, good water solubility, low cytotoxicity, robust chemical inertness, high photo/chemical stability, and strong resistance to photobleaching [1,2]
multicolor carbon dots (M-CDs) were synthesized by a simple ultrasonic-assisted treatment of kiwifruit juice
The (002) peak shifts to the small angle region by changing the added reagents from EA and EDA to ACTN. This phenomenon may be associated with the doped nitrogen in the carbon core as well as the oxygen-containing functional groups on the surface of the CDs, which is consistent with the findings in the reported literature [25,49]
Summary
Carbon dots (CDs) have received increasing attention owing to their excellent biocompatibility, good water solubility, low cytotoxicity, robust chemical inertness, high photo/chemical stability, and strong resistance to photobleaching [1,2] They have especially demonstrated huge potential applications in a wide range of fields, such as sensing, bioimaging, drug delivery, photocatalysis, energy storage, anticounterfeiting, light-emitting diodes (LED), and so on [3,4,5,6,7,8]. Et al obtained the full-color fluorescent CDs via silica column chromatography and presented the difference of luminescence resulting from the surface oxidation degree [26] These pioneering contributions have made significant effects on the development of M-CDs. some unavoidable issues, such as the time-consuming process, the cumbersomeness, as well as the fluorescence mechanism of CDs still remained unaddressed. Nanomaterials 2022, 12, x FOR PEER REVIEW by virtue of their strong and stable photoluminescence (PL) properties, as well as low toxicity
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