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Rational design of near-infrared carbon dots as polarity-sensitive fluorescent probes for imaging of lipid droplets

Zheng Yang, Y. Y. Peng, Miao Qu, Haonan Yang, Xiaodan Jia, Xiangrong Liu

2025Journal of Materials Chemistry B10 citationsDOI

Abstract

), in which the emission reached to the NIR region near 800 nm with the maximum emission wavelength located around 700 nm. This nanoprobe can specifically colocalize with LDs with a high correlation coefficient of 0.96 and effectively image the polarity changes in LDs and living cells. This work presents effective strategies and foundations for the construction of NIR CDs, helps in the design of polarity selective probes, and has implications for accelerating the development of polarity-related processes for disease diagnosis.

Topics & Concepts

FluorescencePolarity (international relations)InfraredMaterials scienceRational designNanotechnologyCarbon fibersBiophysicsOpticsChemistryComposite materialBiochemistryBiologyPhysicsComposite numberCellLipid metabolism and biosynthesis
Rational design of near-infrared carbon dots as polarity-sensitive fluorescent probes for imaging of lipid droplets | Litcius