Nanoparticles with a core-shell structure can minimize the overheating of cells during bioimaging experiments

Upconversion nanoparticles—new types of luminescent nanomaterials that release high-energy photons after laser light stimulation—can penetrate deeper into tissue and are more photochemically stable than conventional bioimaging agents, such as quantum dots and organic dyes. Luminescent nanocrystals doped or impregnated with small amounts of rare-earth ytterbium (Yb) ions are particularly effective at photon upconversion. The specific lasers used to excite Yb dopants, however, can also heat water molecules in biological samples causing cell death or tissue damage.

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