纳米团簇
光致发光
检出限
溶剂
金属
化学
发光
光化学
组合化学
乙醇
纳米技术
材料科学
有机化学
色谱法
光电子学
作者
Qi Nie,Jingjing Deng,Bing Xie,Tianshu Zhou
标识
DOI:10.1016/j.microc.2023.108831
摘要
In this study, a novel solvent-assisted strategy was developed for the rapid and sensitive detection of kanamycin (KAN) based on glutathione-capped silver-doped gold nanoclusters (AuAg NCs). Ethanol solvent played a key role in disrupting the hydration shell of metal(I)-thiolate complexes in AuAg NCs. KAN, as a specific linker between AuAg NCs through electrostatic interaction and metal-amine coordination, induced the formation of large aggregates and thus triggered prolonged photoluminescence lifetime as well as strong luminescence enhancement by restricting molecular motions in AuAg NCs. The KAN-stimulated turn-on principle allows AuAg NCs to exhibit 4-fold sensitivity in 40% ethanol/water (V/V) mixed solution compared to that in water. The improved aggregation-induced-emission enhancement (AIEE) feature endows the AuAg NCs with selective recognition for KAN and realizes rapid detection in a short response time of 60 s with a low detection limit of 8.6 nM. By integrating AuAg NCs with a Pasteur pipette, a facile sample-to-answer test kit for on-site determination with low cost and high efficiency was constructed, offering potential applications in the timely analysis of contaminants in environmental emergencies.
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