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Assembly-Induced Emission Enhancement in Glutathione-Capped Bimetallic Gold and Copper Nanoclusters by Al 3+ Ions and Further Application in Myricetin Determination.

Hao-Jie BaiDe-Yan QiHong-Wei LiYuqing Wu
Published in: Molecules (Basel, Switzerland) (2023)
A significant emission enhancement (>100-fold) of glutathione-capped bimetallic gold and copper nanoclusters (AuCuNC@GSH) was achieved by assembling with Al 3+ ions and by assembly-induced emission enhancement (AIEE). Further chelation of myricetin to Al 3+ resulted in emission quenching of AuCuNC-Al 3+ , which was applied to specifically detect myricetin. Two linear responses were shown in the range of 0-1.5 μM and 1.5-50 μM, separately, leading to a low limit of detection at 8.7 nM. The method was successfully and accurately applied to myricetin determination in grape juice, which showed good application for real samples. Finally, the in-depth mechanism revealed that both the chelation of myricetin and Al 3+ and the inner filter effect (IFE) between myricetin-Al 3+ and AuCuNC-Al 3+ greatly contributed to the quenching response of myricetin. Therefore, the present study provides an easy way to improve the fluorescence property of metal nanoclusters. Additionally, it supplies a cost-effective and easily performed approach to detect myricetin with high selectivity and sensitivity.
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