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W4281735344 abstract "Plasmonic nanoparticle clusters promise to support unique engineered electromagnetic responses at optical frequencies, realizing a new concept of devices for nanophotonic applications. However, the technological challenges associated with the fabrication of three-dimensional nanoparticle clusters with programmed compositions remain unresolved. Here, we present a novel strategy for realizing heterogeneous structures that enable efficient near-field coupling between the plasmonic modes of gold nanoparticles and various other nanomaterials via a simple three-dimensional coassembly process. Quantum dots embedded in the plasmonic structures display ∼56 meV of a blue shift in the emission spectrum. The decay enhancement factor increases as the total contribution of radiative and nonradiative plasmonic modes increases. Furthermore, we demonstrate an ultracompact diagnostic platform to detect M13 viruses and their mutations from femtoliter volume, sub-100 pM analytes. This platform could pave the way toward an effective diagnosis of diverse pathogens, which is in high demand for handling pandemic situations." @default.
W4281735344 created "2022-06-13" @default.
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W4281735344 date "2022-05-27" @default.
W4281735344 modified "2023-10-16" @default.
W4281735344 title "Three-Dimensional Plasmonic Nanocluster-Driven Light–Matter Interaction for Photoluminescence Enhancement and Picomolar-Level Biosensing" @default.
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W4281735344 doi "https://doi.org/10.1021/acs.nanolett.2c00790" @default.
W4281735344 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35622690" @default.
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