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Dual-Function Strategy for Enhanced Quercetin Detection Using Terbium(III) Ion-Bound Gold Nanoclusters

Kai‐Yuan Huang, Yanyan Chen, Zhiqiang Yang, Yanping Pan, Jun Xie, Wei Chen, Hao‐Hua Deng

2025Analytical Chemistry11 citationsDOI

Abstract

The engineering of metal nanoclusters (NCs) that exhibit bright emissions and high sensing performance under physiological conditions is still a formidable challenge. In this study, we report a novel design strategy for realizing excellent performance metal NC-based probes by leveraging both concerted proton-coupled electron transfer (PCET) and photoinduced electron transfer (PET) mechanisms, with terbium(III) (Tb 3+ ) ions serving as a key modulator. Our findings indicate that the binding of Tb 3+ ions to the 6-aza-2-thiothymidine (ATT) ligand effectively inhibits the proton-transfer step in the concerted PCET pathway of Au 10 (ATT) 6 NCs, giving rise to over a 10-fold enhancement in fluorescence and a quantum yield of 7.2%. Moreover, the capped Tb 3+ ions on the surface of Au 10 (ATT) 6 NCs can act as a bridge to facilitate an efficient donor-linker-acceptor type PET reaction from quercetin (Que) to the excited Au 10 core by specifically interacting with the bare 3-OH group. These advancements enable the Tb 3+ /Au 10 (ATT) 6 NC-based probe to achieve a significantly lower limit of detection for Que, reduced by nearly 3 orders of magnitude to 2.6 nM, while also addressing the critical difficulty of selectively detecting Que in the presence of its glycosylated analogues. This work opens new opportunities for the precise control of photoluminescence in metal NC probes at the molecular level, potentially promoting the development of next-generation metal NC-based sensing technologies.

Topics & Concepts

ChemistryTerbiumNanoclustersQuercetinIonNanotechnologyCombinatorial chemistryOrganic chemistryMaterials scienceAntioxidantNanocluster Synthesis and ApplicationsAdvanced Nanomaterials in CatalysisGold and Silver Nanoparticles Synthesis and Applications