Dual-Enhancement Electrochemiluminescence Device for Ultratrace Uranium Visualized Monitoring in Fish, Hair, and Nail Samples.
Ziyu WangChengqi LiYang PeiMengxiang LiYulong LiuJing-Juan XuDaoben HuaPublished in: Analytical chemistry (2024)
Uranium is a nuclear fuel but also a hazardous contaminant due to its radioactivity and chemical toxicity. To prevent and mitigate its potential threat, the accurate monitoring of ultratrace uranium (orders of magnitude of pg g -1 ) in practical environmental samples has become an important scientific problem. To meet this challenge, we developed an efficient electrochemiluminescence (ECL) UO 2 2+ detection device by a novel dual-enhancement mechanism. In detail, poly[(9,9-dioctylfuor-enyl-2,7-diyl)- alt -co-(1,4-benzo-{2,1,3}-thiadiazole)] polymer dots (Pdots) are modified by the UO 2 2+ DNA aptamer, and rhodamine B (RhB) is combined with dsDNA to quench the ECL signal via a resonance energy transfer (RET) process. UO 2 2+ can cut off the DNA aptamer to release RhB, which generates an ECL enhancement process, and then, UO 2 2+ continuously combines with the DNA chain, inducing another ECL enhancement by the RET process from UO 2 2+ to Pdots. This device achieves an ultralow detection limit (12 pg L -1 ) and a wide linear range (113 pg L -1 -11.3 mg L -1 ), which can successfully give accurate determination results to the ultratrace uranium in biosamples (<1 pg g -1 ) to monitor the uranium simulation of fish. This work presents an efficient strategy for ultratrace uranium determination in the environment, highlighting its significance in public health and environmental fields.
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