Xuanyu Cao scite author profile

The level of circulating tumor cells (CTCs) plays a critical role in tumor metastasis and personalized therapy, but it is challenging for highly efficient capture and detection of CTCs because of the extremely low concentration in peripheral blood. Herein, we report near-infrared fluorescent AgS nanodot-based signal amplification combing with immune-magnetic spheres (IMNs) for highly efficient magnetic capture and ultrasensitive fluorescence labeling of CTCs. The near-infrared fluorescent AgS nanoprobe has been successfully constructed through hybridization chain reactions using aptamer-modified AgS nanodots, which can extremely improve the imaging sensitivity and reduce background signal of blood samples. Moreover, the antiepithelial-cell-adhesion-molecule (EpCAM) antibody-labeled magnetic nanospheres have been used for highly capture rare tumor cells in whole blood. The near-infrared nanoprobe with signal amplification and IMNs platform exhibits excellent performance in efficient capture and detection of CTCs, which shows great potential in cancer diagnostics and therapeutics.

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Transition metal dichalcogenide quantum dots: synthesis, photoluminescence and biological applications

Cao

Ding

Zhang

et al. 2018

J. Mater. Chem. B

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Sensitive monitoring and bioimaging intracellular highly reactive oxygen species based on gold nanoclusters@nanoscale metal-organic frameworks

Cao

Cheng

You

et al. 2019

Analytica Chimica Acta

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Rare earth ions enhanced near infrared fluorescence of Ag₂S quantum dots for the detection of fluoride ions in living cells

et al. 2017

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In this work, a novel phenomenon was discovered that the fluorescence intensity of silver sulfide quantum dots (AgS QDs) could be enhanced in the presence of rare earth ions through aggregation-induced emission (AIE). Based on the strong coordination between rare earth ions and F, a facile and label-free strategy was developed for the detection of F in living cells. AgS QDs were synthesized using 3-mercaptopropionic acid as sulfur source and stabilizer in aqueous solution. The near infrared (NIR) emitting QDs exhibited excellent photostalilty, high quantum yield and low toxic. Interestingly, the fluorescence intensity of QDs was obviously enhanced upon the addition of various rare earth ions, especially in the presence of Gd. The AIE mechanism was proved via the TEM, zeta potential and dynamic light scattering analysis. Moreover, the coordination between rare earth ions and F could lead to the quenching of fluorescence QDs due to the weakening the AIE. Based on these findings, we developed a highly sensitive and selective method for detection of F. The label-free NIR fluorescence probe was successfully used for F bioimaging in live cells.

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Nanoscaled luminescent terbium metal–organic frameworks for measuring and scavenging reactive oxygen species in living cells

Cao

Fei

et al. 2019

J. Mater. Chem. B

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Xuanyu Cao

Near-Infrared Fluorescent Ag₂S Nanodot-Based Signal Amplification for Efficient Detection of Circulating Tumor Cells

Transition metal dichalcogenide quantum dots: synthesis, photoluminescence and biological applications

Sensitive monitoring and bioimaging intracellular highly reactive oxygen species based on gold nanoclusters@nanoscale metal-organic frameworks

Rare earth ions enhanced near infrared fluorescence of Ag₂S quantum dots for the detection of fluoride ions in living cells

Nanoscaled luminescent terbium metal–organic frameworks for measuring and scavenging reactive oxygen species in living cells

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Xuanyu Cao

Near-Infrared Fluorescent Ag2S Nanodot-Based Signal Amplification for Efficient Detection of Circulating Tumor Cells

Transition metal dichalcogenide quantum dots: synthesis, photoluminescence and biological applications

Sensitive monitoring and bioimaging intracellular highly reactive oxygen species based on gold nanoclusters@nanoscale metal-organic frameworks

Rare earth ions enhanced near infrared fluorescence of Ag2S quantum dots for the detection of fluoride ions in living cells

Nanoscaled luminescent terbium metal–organic frameworks for measuring and scavenging reactive oxygen species in living cells

Contact Info

Product

Resources

About

Near-Infrared Fluorescent Ag₂S Nanodot-Based Signal Amplification for Efficient Detection of Circulating Tumor Cells

Rare earth ions enhanced near infrared fluorescence of Ag₂S quantum dots for the detection of fluoride ions in living cells