Ultrathin Y₂O₃:Eu³⁺nanodiscs: spectroscopic investigations and evidence for reduced concentration quenching

Abstract: Here, we report the synthesis and spectral properties of ultrathin nanodiscs (NDs) of YO:Eu. It was found that the NDs of YO:Eu with a thickness of about 1 nm can be fabricated in a reproducible, facile and self-assembling process, which does not depend on the Eu concentration. The thickness and morphology of these NDs were determined with small angle x-ray scattering and transmission electron microscopy. We found that the crystal field in these nanoparticles deviates from both the cubic and monoclinic charact… Show more

“…The energy level structure of Eu 3+ is comparative briefness, and almost no cross-relaxation happened between the energy levels. The characteristic interchange energy transfer (ET) caused the concentration quenching of Eu 3+ . − The 18 EZ-160-5 sample had the strongest luminescence intensity, and the Eu 3+ -doped concentration was determined at 18 wt % in this study.…”

Preparation of Bitter Melon-like Ordered Porous Fluorinated Eu³⁺–Phenanthroline/ZnO Composite with Yellow Light Emission

“…The energy level structure of Eu 3+ is comparative briefness, and almost no cross-relaxation happened between the energy levels. The characteristic interchange energy transfer (ET) caused the concentration quenching of Eu 3+ . − The 18 EZ-160-5 sample had the strongest luminescence intensity, and the Eu 3+ -doped concentration was determined at 18 wt % in this study.…”

Preparation of Bitter Melon-like Ordered Porous Fluorinated Eu³⁺–Phenanthroline/ZnO Composite with Yellow Light Emission

Coordination chemistry of the host matrices with dopant luminescent Ln3+ ion and their impact on luminescent properties

Exploring the influence of polymeric and non-polymeric materials in synthesis and functionalization of luminescent lanthanide nanomaterials