[The synthesis and luminescence measurement of YAG : Ce3+ phosphors by high temperature solid phase method].

ABSTRACT

YAG Ce3+ luminescence materials were prepared by a high-temperature solid state method. Different influencing factors, e. g., the doping amount of Ce3+, sintering temperature, and sintering time, were investigated by the orthogonal experiment method. The results showed that (1) the influence of three factors on light-emitting intensity of YAG Ce3+ phosphors is in the following order, sintering temperature >> sintering time > the doping amount of Ce3+; (2) the optimum conditions for YAG Ce3+ phosphors are sintering temperature 1 600 degrees C, the doping amount of Ce3+ 0.10 mol, and sintering time 4 h. Under these conditions, the light-emitting intensity of YAG Ce3+ phosphors prepared is the largest. Furthermore, another optimum conditions are sintering temperature 1 600 degrees C, the doping amount of Ce3+ 0.08 mol, and sintering time 4 h, and the YAG Ce3+ phosphors prepared are also excellent based on them. The transition properties and spectral features of excitation and luminescence spectra of these synthesized phosphors were analyzed in detail and assigned as Ce3+ 4f-5d transition.