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Water-insensitive NIR-I-to-NIR-I down-shifting nanoparticles enable stable biomarker detection at low power thresholds in opaque aqueous environmentsopen access

Authors
Kang, DongkyuKim, SuyeonGoh, YeongchangKim, MinseoLee, Sun-HakKwon, Jung-HoonNam, Sang HwanLee, Joonseok
Issue Date
Jul-2025
Publisher
Nature Publishing Group
Keywords
Diagnosis; Light Emission; Nanoparticles; Phosphors; Viruses; Aqueous Environment; Emitting Phosphors; Low Power; Luminescence Quenching; Near Infrared; Near-infrared; Power Thresholds; Sensitiser; Up-conversion; Water Molecule; Infrared Devices
Citation
Light: Science & Applications, v.14, no.1, pp 1 - 13
Pages
13
Indexed
SCIE
SCOPUS
Journal Title
Light: Science & Applications
Volume
14
Number
1
Start Page
1
End Page
13
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/208341
DOI
10.1038/s41377-025-01882-2
ISSN
2095-5545
2047-7538
Abstract
Luminescence quenching in aqueous environments poses a challenge for practical applications. Lanthanide-doped up-conversion nanoparticles (UCNPs), representative of near-infrared (NIR)-emitting phosphors, typically utilize Yb3+ ions as sensitizers, requiring 980 nm light. This wavelength coincides with the transitions of water molecules, interfering with population dynamics, and continuous irradiation causes unintended heating. Although Nd3+ ions, which absorb at 800 nm, serve as alternative sensitizers, their practical use is limited by low quantum yield (Q.Y.). In this study, we developed water-insensitive down-shifting nanoparticles (WINPs) functioning within the NIR-I range (700-900 nm) to avoid water interference. Characterization through single-particle-level spectroscopy demonstrated water-insensitive properties, with identical powers density and lifetime profiles under both dry and water conditions. The WINPs achieved a high Q.Y. of 22.1 +/- 0.9%, allowing operation at a detection limit power 15-fold lower than UCNPs, effectively eliminating background noise and enhancing overall performance. To assess diagnostic potential, we validated WINP-based lateral flow immunoassay (LFA) for detecting avian influenza viruses (AIVs) in 65 opaque clinical samples, achieving 100% sensitivity and an area under the curve (AUC) of 1.000 at only 100 mW cm-2. These findings highlight the potential of WINPs as water-insensitive NIR phosphors that can operate at low power, even in water-rich environments.
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