Hyeongyu Bae scite author profile

Understanding the interaction of nanoparticles with living cells on the basis of cellular uptake efficiency is a fundamental requisite in biomedical research. Cellular internalization of nanoparticles takes place by mechanisms like ATP hydrolysis-driven endocytosis that deliver nanoparticles to the cytoplasm, organelles and nuclei. Despite its importance in nanomedicine, this uptake procedure is not understood in-depth because of the complexity of the biochemical mechanisms and the lack of available experimental methods for quantitative analysis. The only breakthrough is likely to be the development of imaging techniques that can visualize, monitor and even count the number of nanoparticles inside the cell. To this end, we report here a new, fast and background-free three-dimensional (3-D) imaging technique with quantitative evaluation of the uptake efficiency for NaYF4:Yb3+,Er3+/NaYF4 core/shell upconversion nanoparticles (UCNPs) functionalized with different chemical and biological groups. Furthermore, the multiple 3-D trajectories of the UCNPs have been analyzed to investigate the cellular dynamics. This study reveals the nuclear uptake of UCNPs to be dependent on the specific chemical groups conjugated to the UCNPs. The developed 3-D imaging technique is of great significance for exploring complex biological systems.

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Upconversion Luminescence Sensitized pH-Nanoprobes

Mahata

Bae

Lee

2017

Molecules

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Photon upconversion materials, featuring excellent photophysical properties, are promising for bio-medical research due to their low autofluorescence, non-cytotoxicity, low photobleaching and high photostability. Upconversion based pH-nanoprobes are attracting considerable interest due to their superiority over pH-sensitive molecular indicators and metal nanoparticles. Herein, we review the advances in upconversion based pH-nanoprobes, the first time in the seven years since their discovery in 2009. With a brief discussion on the upconversion materials and upconversion processes, the progress in this field has been overviewed, along with the toxicity and biodistribution of upconversion materials for intracellular application. We strongly believe that this survey will encourage the further pursuit of intense research for designing molecular pH-sensors.

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Effect of tetragonal to cubic phase transition on the upconversion luminescence properties of A/B site erbium-doped perovskite BaTiO₃

Bae

Lee

2019

RSC Adv.

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Power-dependent photophysical pathways of upconversion in BaTiO₃:Er³⁺

Bae

Lee

2021

Phys. Chem. Chem. Phys.

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Hyeongyu Bae

Cellular uptake efficiency of nanoparticles investigated by three-dimensional imaging

Upconversion Luminescence Sensitized pH-Nanoprobes

Effect of tetragonal to cubic phase transition on the upconversion luminescence properties of A/B site erbium-doped perovskite BaTiO₃

Power-dependent photophysical pathways of upconversion in BaTiO₃:Er³⁺

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Hyeongyu Bae

Cellular uptake efficiency of nanoparticles investigated by three-dimensional imaging

Upconversion Luminescence Sensitized pH-Nanoprobes

Effect of tetragonal to cubic phase transition on the upconversion luminescence properties of A/B site erbium-doped perovskite BaTiO3

Power-dependent photophysical pathways of upconversion in BaTiO3:Er3+

Contact Info

Product

Resources

About

Effect of tetragonal to cubic phase transition on the upconversion luminescence properties of A/B site erbium-doped perovskite BaTiO₃

Power-dependent photophysical pathways of upconversion in BaTiO₃:Er³⁺