With stable physical properties, the rare-earth silicate phosphor of MgSiO3:Mn2+,Nd3+ is one of the suitable luminescent materials used in preparing functional fibers. In order to promote the afterglow properties o...With stable physical properties, the rare-earth silicate phosphor of MgSiO3:Mn2+,Nd3+ is one of the suitable luminescent materials used in preparing functional fibers. In order to promote the afterglow properties of red-emitting phosphors, we prepared it by means of solid-state reaction, and the effect of manufacturing elements including H3BO3 and environmental factor of calcining temperature, type of flux on its luminescence property were investigated through evaluating their afterglow properties. The results showed that with the concentration of Nd3+ increasing, the amounts of H3BO3 doping and calcining temperature, the afterglow time and initial brightness of the rare-earth silicate phosphor increased and then decreased gradually. The afterglow properties of different flux concentration were different from one to another as: H3BO3〉Na+〉K+〉No flux.展开更多
To discuss the function of Eu and Dy and their interaction in Sr2 Mg Si2O7:Eu^2+,Dy^3+ long afterglow material,the Eu and Dy single doped and their co-doped Sr2 Mg Si2O7:Eu^2+,Dy^3+ were prepared.The samples wer...To discuss the function of Eu and Dy and their interaction in Sr2 Mg Si2O7:Eu^2+,Dy^3+ long afterglow material,the Eu and Dy single doped and their co-doped Sr2 Mg Si2O7:Eu^2+,Dy^3+ were prepared.The samples were characterized by X-ray diffraction(XRD),decay curves,photoluminescence(PL),and thermoluminescence(TL).The results indicate that Sr2 Mg Si2O7:Eu has afterglow properties,and the doping of Eu ion in Sr2 Mg Si2O7:Eu^2+,Dy^3+ can lower the depth of traps.Eu ion can not only serve as luminescence center,but also produce traps in the matrix,meanwhile,it also exerts certain influences on the traps produced by Dy in Sr2 Mg Si2O7:Eu^2+,Dy^3+.The Dy ion can not act as luminescence center but relates to the change of the traps in the Sr2 Mg Si2O7 matrix.展开更多
基金Project supported by National Natural Science Foundation of China(21171074/B010201)
文摘With stable physical properties, the rare-earth silicate phosphor of MgSiO3:Mn2+,Nd3+ is one of the suitable luminescent materials used in preparing functional fibers. In order to promote the afterglow properties of red-emitting phosphors, we prepared it by means of solid-state reaction, and the effect of manufacturing elements including H3BO3 and environmental factor of calcining temperature, type of flux on its luminescence property were investigated through evaluating their afterglow properties. The results showed that with the concentration of Nd3+ increasing, the amounts of H3BO3 doping and calcining temperature, the afterglow time and initial brightness of the rare-earth silicate phosphor increased and then decreased gradually. The afterglow properties of different flux concentration were different from one to another as: H3BO3〉Na+〉K+〉No flux.
文摘To discuss the function of Eu and Dy and their interaction in Sr2 Mg Si2O7:Eu^2+,Dy^3+ long afterglow material,the Eu and Dy single doped and their co-doped Sr2 Mg Si2O7:Eu^2+,Dy^3+ were prepared.The samples were characterized by X-ray diffraction(XRD),decay curves,photoluminescence(PL),and thermoluminescence(TL).The results indicate that Sr2 Mg Si2O7:Eu has afterglow properties,and the doping of Eu ion in Sr2 Mg Si2O7:Eu^2+,Dy^3+ can lower the depth of traps.Eu ion can not only serve as luminescence center,but also produce traps in the matrix,meanwhile,it also exerts certain influences on the traps produced by Dy in Sr2 Mg Si2O7:Eu^2+,Dy^3+.The Dy ion can not act as luminescence center but relates to the change of the traps in the Sr2 Mg Si2O7 matrix.
