中文摘要：

采用共沉淀法制备了EuVO4@YVO4核壳结构纳米颗粒,然后用聚电解质聚苯乙烯磺酸钠对其进行包覆和保护,并在200？C下对样品水热处理0—48 h.在水热处理48 h后,样品的发光强度增强了约5倍,平均发光寿命由0.410 ms延长至0.579 ms.对样品的发光衰减曲线的拟合、分析为Eu3＋的扩散提供了有力的证据.这种自内而外的扩散降低了样品核心中Eu3＋的局域浓度,削弱了浓度猝灭效应,同时又能够避免表面猝灭效应的发生,从而使得样品的发光寿命变长、发光效率迅速提升.

英文摘要：

EuVO4@YVO4core-shell nanoparticles（NPs） are synthesized, coated by poly（sodium 4-styrenesulfonate） and hydrothermally treated at 200？C for 0–48 h. The photoluminescence（PL） intensity of as-prepared sample is enhanced by about 5 times after 48-hour hydrothermal treatment, and the average lifetime is raised up from 0.410 ms to 0.579 ms.Further studies of hydrothermal time-dependent PL decay curves provide evidence for the diffusion of Eu3＋in core-shell NPs, which could reduce the concentration quenching in particle core and hence enhance the PL efficiency. This thermal diffusion strategy based on ion-doped core-shell NPs could be used to prepare luminescent NPs with high efficiency if designed elaborately.