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CdSe/CdS-quantum rods: fluorescent probes for in vivo two-photon laser scanning microscopy.

Nanoscale (2014-08-01)
Jelena Dimitrijevic, Lisa Krapf, Christopher Wolter, Christian Schmidtke, Jan-Philip Merkl, Tobias Jochum, Andreas Kornowski, Anna Schüth, Andreas Gebert, Gereon Hüttmann, Tobias Vossmeyer, Horst Weller
RESUMEN

CdSe/CdS-Quantum-dots-quantum-rods (QDQRs) with an aspect ratio of ∼ 6 are prepared via the seeded growth method, encapsulated within a shell of crosslinked poly(isoprene)-block-poly(ethylene glycol) (PI-b-PEG) diblock copolymer, and transferred from the organic phase into aqueous media. Their photoluminescence quantum yield (PLQY) of 78% is not compromised by the phase transfer. Within a period of two months the PLQY of QDQRs in aqueous solution at neutral pH decreases only slightly (to ∼ 65%). The two-photon (TP) action cross sections of QDQRs (∼ 10(5) GM) are two orders of magnitude higher than those of CdSe/CdS/ZnS-core/shell/shell quantum dots (QDs, ∼ 10(3) GM) with comparable diameter (∼ 5 nm). After applying PI-b-PEG encapsulated QDQRs onto the small intestinal mucosa of mice in vivo, their strong red fluorescence can easily be observed by two-photon laser scanning microscopy (TPLSM) and clearly distinguished from autofluorescent background. Our results demonstrate that PI-b-PEG encapsulated CdSe/CdS-QDQRs are excellent probes for studying the uptake and fate of nanoparticles by two-photon imaging techniques in vivo.

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Sigma-Aldrich
CdSe/CdS core-shell type quantum rods, fluorescence λem 560 nm, 5 mg/mL in hexane
Sigma-Aldrich
CdSe/CdS core-shell type quantum rods, fluorescence λem 620 nm, 5 mg/mL in hexane
Sigma-Aldrich
CdSe/CdS core-shell type quantum rods, fluorescence λem 530 nm, 5 mg/mL in hexane