Abstract

Rare earth Eu3+-doped nanoceria with an average size of 60 nm were synthesized by urea–nitrate solution combustion reaction. The microstructure and morphology of the samples were characterized by X-ray diffraction patterns (XRD), X-ray photoelectron spectroscopy (XPS), and field emission scanning electron microscopy (SEM). The host is confirmed to be pure CeO2. However, there are two distinct oxygen surroundings due to the substitution of Ce4+ species with Eu3+ ions. The optical properties of CeO2:Eu were investigated by photoluminescence and X-ray luminescence spectroscopy. The samples can be excited with 360 nm (ultra-violet light, the charge transfer band of O–Ce) and 466 nm (blue light, the Eu3+ 7F0 → 5D2 transition) respectively, and exhibit typical red-light emission of Eu3+. At low Eu3+ concentrations, the sample can be effectively excited with 360 nm. With the increase of the Eu3+ concentration, the dominant excitation wavelength is changed to 466 nm, which is beneficial for use in solid state lighting because of the coincidence with the emission of GaN chips. Under the excitation of 466 nm, the quenching concentration of Eu3+ can be increased to 16 mol% due to the interface effects of the nanoscale materials. Furthermore, the X-ray luminescence of CeO2:Eu also shows strong red-light emission, manifesting that the material is a promising scintillator for radiation detection.

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