Publication | Open Access
Upconversion Luminescence of Gd<sub>2</sub>O<sub>3</sub>:Ln<sup>3+</sup> Nanorods for White Emission and Cellular Imaging via Surface Charging and Crystallinity Control
23
Citations
54
References
2019
Year
EngineeringChemistryLuminescence PropertyPhosphorescence ImagingFlexible Lanthanide LoadingSurface ChargingBioimagingHybrid MaterialsMaterials SciencePhotoluminescenceNanotechnologyUpconversion LuminescenceBiophotonicsCrystallinity ControlOxide UpconversionFunctional NanomaterialsNanomaterialsApplied PhysicsFunctional MaterialsPhosphorescence
In this paper, an oxide upconversion nanomaterial, Gd2O3:Ln3+, as an alternative counterpart of NaGdF4:Ln3+ was developed via controlled surfactant-free synthesis, flexible lanthanide loading, compositional/size tuning, hexagonal-to-cubic lattice refinement, and positive surface charging to achieve a substantial enhancement of upconversion luminescence (∼30 times upon calcination at 1000 vs 600 °C; ∼4000 times versus its hydroxide form) due to high crystallinity and extremely low residual impurities for white emission and cellular imaging.
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