Boron and Nitrogen Codoped Carbon Dots as Fluorescence Sensor for Fe3+ with Improved Selectivity

In this study, we suspect that sp3 boron atom in phenylboronic acid group will be more compatible with Fe3+ to form coordination bonds, thereby increasing the selectivity to Fe3+. Hence, we designed and synthesized boron and nitrogen codoped carbon dots (BN-CDs) for detection of Fe3+ via a hydrothermal method using o-phenylenediamine (OPA) and 4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)benzylchloroformate as precursors. From the results, we found that BN-CDs had superior selectivity to Fe3+ in the presence of the other common interfering metal ions like Cu2+, Fe2+ and Pb2+. Besides, the obtained BN-CDs exhibited good water solubility, favorable photostability, excellent pH stability between pH 2-11, and strong fluorescence intensity with quantum yield up to 31.5%. These excellent properties of carbon dots validate that our idea is feasible, and can be used for design CDs for Fe3+ detection. Quenching Mechanism study showed the fluorescence intensity of BN-CDs could be dramatically quenched by Fe3+ through dynamic and static synergy process. Finally, the as prepared BN-CDs were successfully applied to the determination of Fe3+ in fetal bovine serum and lake water.Graphical AbstractBoron and nitrogen codoped carbon dots (BN-CDs) was prepared via a hydrothermal method, and their strong fluorescence could be quenched by Fe3+ ions selectively. These BN-CDs were successfully applied to detect Fe3+ in lake water and fetal bovine serum.
Source: Journal of Pharmaceutical and Biomedical Analysis - Category: Drugs & Pharmacology Source Type: research