CdS和ZnS相似,都有立方和六方两种结构。ZnS在低于102℃时立方型稳定,高温稳定相是六方型;CdS从立方转变为六方构型的温度约在600℃左右。 CdS-ZnS固熔体由于在光电和荧光材料等方面有广泛的应用,而引起人们的兴趣,但是由于制备方法和条件的差异,常有不同的结果。过去的工作表明,在灼烧中,导电性材料In_2O_3不影响固熔体的结构,同时(Cd_xZn_(1-x))S:Ag/In_2O_3的低压荧光光谱随着CdS与ZnS比例的变化而变化。本文继续研究这种光谱与荧光基质CdS-ZnS固熔体晶格参 CdS and ZnS are similar, both cubic and hexagonal two structures. When ZnS is below 102 ℃, the cubic system is stable and the high temperature stable phase is hexagonal. The temperature of CdS from cubic to hexagonal configuration is about 600 ℃. CdS-ZnS solid melts have aroused people’s interest due to their wide applications in optoelectronics and fluorescent materials, but often have different results due to differences in preparation methods and conditions. It has been shown in the past that the conductive In 2 O 3 material does not affect the structure of the solid solution during firing, and the low-pressure fluorescence spectrum of Cd x Zn x (1-x) S: Ag / In 2 O 3 changes with the ratio of CdS to ZnS . This article continues the study of this spectral and fluorescent matrix CdS-ZnS solid solution lattice parameter