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Sub-10 nm upconversion nanocrystals for long-term single-particle tracking

Xiaochen Qiu, Daoming Guan, Xiaojing Xia, Huan Ling, Jialing Hu, Yunxiang Zhang, Emory M. Chan, Fuyou Li, Qian Liu

2025Nature Communications7 citationsDOIOpen Access PDF

Abstract

Lanthanide-doped upconversion nanoparticles are attractive single-molecule imaging probes due to their high photostability and anti-Stokes luminescence. However, achieving both small particle size and strong brightness has remained a major challenge, as reducing size often leads to dimmer emission. Herein, we fabricate a sub-10 nm cascade actively protected upconversion nanoparticles, which shows a 33-fold enhanced upconversion efficiency at the single-particle level compared to larger ~19 nm conventional nanoparticles. Theoretical modeling and time-resolved measurements show that emission loss mainly comes from energy leakage of Er3+ ions to surface defects. By introducing a NaYbF4 layer as photon-harvesting and protective intermediate layer, we minimize this energy loss and significantly boost brightness. A monolayer of inert NaLuF4 can effectively suppress the surface quenching to Yb3+. Using these ultra-small bright probes, we successfully tracked single epidermal growth factor receptor molecules on live cells for up to one hour, revealing dynamic switching between different diffusion modes. This study presents ultrasmall, bright lanthanide-doped upconversion nanoparticles that overcome surface quenching, enabling high spatiotemporal resolution tracking of membrane proteins with exceptional photostability.

Topics & Concepts

Photon upconversionMaterials scienceOptoelectronicsBrightnessMonolayerCascadeNanocrystalQuenching (fluorescence)NanotechnologyIonNanoparticleInertParticle sizeParticle (ecology)Surface modificationTracking (education)Leakage (economics)Layer (electronics)MoleculeDiffusionBlueshiftLow energyLuminescence Properties of Advanced MaterialsLuminescence and Fluorescent MaterialsRadiation Detection and Scintillator Technologies
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