A systematic study of the effect of microstructure on the EL properties of ZnS:Er thin film devices fabricated by thermal evaporatio n was carried out using XRD, XPS and EL techniques. The experimental results i ndicate that the high brightness of the devices is attributed to the deposition growth of cr ystallites oriented in the (311), (400) directions. This can be explained by ass uming a higher population of erbium being in the trivalent charge state in the ( 311), (400) planes of the films grown under certain deposition condition. It is concluded that only the part of rare earth dopant being in trivalent charge stat e in the film contributes to luminescence. The mechanism of the formation of lum inescence center and the excitation of Er 3+ ion by the electric field are discussed. A systematic study of the effect of microstructure on the EL properties of ZnS: Er thin film devices fabricated by thermal evaporatio n was carried out using XRD, XPS and EL techniques. The experimental results i ndicate that the high brightness of the devices is attributed to the deposition growth of cr ystallites oriented in the (311), (400) directions. This can be explained by ass uming a higher population of erbium being in the trivalent charge state in the (311), (400) planes of the films grown under certain deposition condition. It is said that only that part of rare earth dopant being in trivalent charge stat e in the film contributes to luminescence. The mechanism of the formation of luminescence center and the excitation of Er 3+ ion by the electric field are discussed.