Preparation of Eu3+ doped (Y,Gd)2O3 flowers from (Y,Gd)2(CO3)3·nH2O flowerlike precursors: Microwave hydrothermal synthesis, growth mechanism and luminescence property

In this study, (Y,Gd)2O3 and (Y,Gd)2O3:Eu flowerlike microstructures were prepared through two steps: well-organized 3-dimensional (3D) flowerlike precursors were first synthesized by a facile urea-based microwave hydrothermal method, then followed by heat treatment. The morphology of the 3D flowerlike precursors could be modulated by adjusting the synthetic conditions including concentration of the starting material, reaction time and temperature. Higher the concentration of Y/Gd ions or reaction temperature, earlier the 3D flowerlike precursors were obtained. The samples were characterized by various means. The flowers were found to derive from colloidal spheres, which experienced a dissolution/crystalline, attachment and self-assembly process. Room temperature photoluminescence spectrum of 3D flowerlike (Y,Gd)2O3:Eu showed enhanced emission property than the spheres.

Graphical abstractThe morphology evolution process of precursors from colloidal spheres ((Y,Gd)(OH)CO3·nH2O) to crystalline flowers ((Y,Gd)2(CO3)3·nH2O) under microwave-hydrothermal condition.Figure optionsDownload full-size imageDownload high-quality image (25 K)Download as PowerPoint slide