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High-resolution three-photon biomedical imaging using doped ZnS nanocrystals.

Nature materials (2013-02-19)
Jung Ho Yu, Seung-Hae Kwon, Zdeněk Petrášek, Ok Kyu Park, Samuel Woojoo Jun, Kwangsoo Shin, Moonkee Choi, Yong Il Park, Kyeongsoon Park, Hyon Bin Na, Nohyun Lee, Dong Won Lee, Jeong Hyun Kim, Petra Schwille, Taeghwan Hyeon
RESUMEN

Three-photon excitation is a process that occurs when three photons are simultaneously absorbed within a luminophore for photo-excitation through virtual states. Although the imaging application of this process was proposed decades ago, three-photon biomedical imaging has not been realized yet owing to its intrinsic low quantum efficiency. We herein report on high-resolution in vitro and in vivo imaging by combining three-photon excitation of ZnS nanocrystals and visible emission from Mn(2+) dopants. The large three-photon cross-section of the nanocrystals enabled targeted cellular imaging under high spatial resolution, approaching the theoretical limit of three-photon excitation. Owing to the enhanced Stokes shift achieved through nanocrystal doping, the three-photon process was successfully applied to high-resolution in vivo tumour-targeted imaging. Furthermore, the biocompatibility of ZnS nanocrystals offers great potential for clinical applications of three-photon imaging.

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Sigma-Aldrich
Zinc sulfide, powder, 10 μm, 99.99% trace metals basis
Sigma-Aldrich
Zinc sulfide, pieces, 3-12 mm, 99.9% trace metals basis
Sigma-Aldrich
Zinc sulfide, purum, 97% (from Zn)