2022
DOI: 10.3390/chemosensors10070253
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Luminescent Sensors Based on the Assembly of Coinage Metal Nanoclusters

Abstract: Coinage metals, such as Cu, Ag and Au, can form nanoclusters, which, when functionalized with ligands, have unique electronic and optical properties and are widely used in biomedical imaging, remote sensing, labeling, catalytic, etc. The mechanisms, structures and properties of nanocluster assemblies have been well reviewed. However, the collections and analyses of nanocluster assemblies for sensor application are few. This review examines different nanocluster sensor platforms with a focus on the assembly and… Show more

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Cited by 2 publications
(3 citation statements)
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“…[66,77] The assembly of ligand-protected mono LP-MNCs into superstructures depends on the structure of the ligands and the homogeneity and shape of the mono LP-MNCs. [32,77,78] Starting from the primary structure of the ligands, interactions between LP-MNCs construct the secondary structure of the ligand shell layer on the nuclear surface, while further interactions between the coordination of adjacent nanoclusters lead to the tertiary structure, which is also defined as superstructure (Figure 1c). [79] LP-CuNCs follow the same principles as LP-MNCs in the general structures, but they also show some unique properties.…”
Section: Basics Of Cu Nanoclustersmentioning
confidence: 99%
“…[66,77] The assembly of ligand-protected mono LP-MNCs into superstructures depends on the structure of the ligands and the homogeneity and shape of the mono LP-MNCs. [32,77,78] Starting from the primary structure of the ligands, interactions between LP-MNCs construct the secondary structure of the ligand shell layer on the nuclear surface, while further interactions between the coordination of adjacent nanoclusters lead to the tertiary structure, which is also defined as superstructure (Figure 1c). [79] LP-CuNCs follow the same principles as LP-MNCs in the general structures, but they also show some unique properties.…”
Section: Basics Of Cu Nanoclustersmentioning
confidence: 99%
“…24 For example, Wang and Tang et al developed a new AIE molecule under a new photoactivatable mechanism of photo-induced crystallization with emission enhancement, with emission enhancement by self-assembling into a regular arrangement under UV light irradiation. 24 Inspired by the luminescence mechanism of AIEgens, many other methods aiming to prevent intramolecular motions have been developed, such as fabricating 2D metal nanoparticle platforms 25 and supramolecular assemblies. 26−32 From a structural viewpoint, cucurbit[n]urils (CB[n]s), which possess high binding affinity toward a variety of cationic or neutral guests through hydrophobic and electrostatic interaction, 33−37 can be expected to effectively prevent aggregation-caused quenching by providing macrocyclic fence, suppressing the quenching of the triplet, suppressing the vibrational deactivation of the excited state through host−guest interactions, restricting molecular motions of the encapsulated luminescence silent dyes to undergo various luminescent emissions.…”
Section: ■ Introductionmentioning
confidence: 99%
“…Inspired by the luminescence mechanism of AIEgens, many other methods aiming to prevent intramolecular motions have been developed, such as fabricating 2D metal nanoparticle platforms and supramolecular assemblies. From a structural viewpoint, cucurbit­[ n ]­urils (CB­[ n ]­s), which possess high binding affinity toward a variety of cationic or neutral guests through hydrophobic and electrostatic interaction, can be expected to effectively prevent aggregation-caused quenching by providing macrocyclic fence, suppressing the quenching of the triplet, suppressing the vibrational deactivation of the excited state through host–guest interactions, restricting molecular motions of the encapsulated luminescence silent dyes to undergo various luminescent emissions . For instance, we constructed a supramolecular luminescent nanosystem by anthracene-conjugated bromophenylpyridinium salt and CB[8], capable of phototunable transformation from fluorescence to phosphorescence in different organelles .…”
Section: Introductionmentioning
confidence: 99%