Cu Nanoparticles/N-Doped Ti3C2T x ‑Based Fluorescence Sensor for Detecting Ascorbic Acid

Although compared with natural enzymes and traditional artificial enzymes, oxidase mimetic nanoenzymes have superior performance; the number of specific biomolecules as the substrate is minimal, especially for ascorbic acid (AA) oxidase nanoenzymes. Herein, Cu nanoparticles/N-doped Ti3C2T x (Cu NPs/...

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Bibliographic Details
Published in:ACS sustainable chemistry & engineering 2023-12, Vol.11 (49), p.17472-17481
Main Authors: Huang, Juan, Shen, Chenyang, Gu, Hongfei, Wang, Guo, Zhou, Peng, Liu, Xinyu, Yu, Kedi, Qin, Yuanlong, Zhou, Kejia, Zhang, Jiayue, Chen, Zhengbo
Format: Article
Language:English
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Summary:Although compared with natural enzymes and traditional artificial enzymes, oxidase mimetic nanoenzymes have superior performance; the number of specific biomolecules as the substrate is minimal, especially for ascorbic acid (AA) oxidase nanoenzymes. Herein, Cu nanoparticles/N-doped Ti3C2T x (Cu NPs/N–Ti3C2T x ), containing copper mimicking the active sites of natural AA oxidase, exhibit specific AA oxidase-like catalytic activity. Dehydroascorbic acid (DHAA) obtained from the oxidation of AA can react with o-phenylenediamine (OPD) to produce fluorescent 3-(1,2-dihydrox-yethyl) furo­[3,4-b]­quinoxaline-1-one (DFQ). Thus, a fluorescence AA sensor is established based on the AA oxidase mimetic activity of Cu NPs/N–Ti3C2T x . Remarkably, an excellent linear range of 5–150 μM for the fluorescence method with a low detection limit of 0.437 μM could guarantee the sensitive detection of AA. In addition, the synthesized Cu NPs/N–Ti3C2T x can induce the generation of reactive oxygen species by accelerating the oxidation of AA, thereby effectively inhibiting the proliferation of cancer cells.
ISSN:2168-0485
2168-0485
DOI:10.1021/acssuschemeng.3c05519