Influence of dispersant on Y_2O_3: Eu~(3+) powders synthesized by combustion method
来源期刊:JOURNAL OF RARE EARTHS2009年第6期
论文作者:ZHAO Jiangbo YIN Min LI Yong ZHANG Weiping WANG Chaonan
Key words:Y_2O_3; combustion; PEG2000; rare earths;
Abstract: Y_2O_3: Eu~(3+) powders were synthesized by combustion method and the influence of dispersant was investigated. XRD analysis in-dicated that the particle size increased with a small amount of dispersant firstly and then decreased with a further increase of dispersant. The morphologies of the powders were studied by scanning electron microscopy (SEM) and high-resolution transmission electron microscopy (HRTEM). SEM images revealed that an appropriate amount of dispersant could reduce the agglomeration significantly. Due to the increase of specific surface area, the charge transfer bands in the excitation spectra showed a red shift with the decrease of particle size. The emission spectra displayed that the reduction of agglomeration could enhance the luminescent intensity greatly. The decay curves of the powders were sin-gle exponential and the lifetime of 612 nm emission increased with the decrease of particle size. The two dcexcitation processes were discussed,and the increase of lifetime with decreased particle size resulted from the combined effects of surface defects and effective refractive index.
ZHAO Jiangbo1,YIN Min1,LI Yong1,ZHANG Weiping1,WANG Chaonan1
(1.Hefei National Laboratory for Physical Sciences at the Microscale,University of Science and Technology of China,Hefei 230026,China;
2.Department of Physics,University of Science and Technology of China,H;
3.Beijing Synchrotron Radiation Facility,Institute of High Energy Physi)
Abstract:Y_2O_3: Eu~(3+) powders were synthesized by combustion method and the influence of dispersant was investigated. XRD analysis in-dicated that the particle size increased with a small amount of dispersant firstly and then decreased with a further increase of dispersant. The morphologies of the powders were studied by scanning electron microscopy (SEM) and high-resolution transmission electron microscopy (HRTEM). SEM images revealed that an appropriate amount of dispersant could reduce the agglomeration significantly. Due to the increase of specific surface area, the charge transfer bands in the excitation spectra showed a red shift with the decrease of particle size. The emission spectra displayed that the reduction of agglomeration could enhance the luminescent intensity greatly. The decay curves of the powders were sin-gle exponential and the lifetime of 612 nm emission increased with the decrease of particle size. The two dcexcitation processes were discussed,and the increase of lifetime with decreased particle size resulted from the combined effects of surface defects and effective refractive index.
Key words:Y_2O_3; combustion; PEG2000; rare earths;
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