UV / Photocatalyst systems removing contaminants from water have been widely reported in recent years. Photocatalyst ZnS were prepared via a microwave hydrothermal, which is faster than the traditional hydrothermal method and control temperature apt to be accurate. In the preparation process, poly(N-vinyl-2-pyrrolidone) (PVP) was added as a stablelizer, the azo dyes, content methyl orange (MO) and methyl red (MR), were used as a target contaminants in the photocatalytic reaction to discuss the effects of synthetic solvent, the ratio of sulfur/zinc, microwave power, reaction time on the photocatalytic activity. The synthesis of ZnS has minimum size in ethanol solution. ZnS agglomeration can be improved by adding PVP to increase the absorption wavelength range. As the proportion of sulfur/zinc increases (S2-/Zn2+ is greater than 1), the particle size of ZnS increase. When synthesis power increase up to 800 W, photocatalytic ability of synthesized ZnS is the strongest than other power. As synthesis of microwave heating time increasing, it generated ZnS particle size has increased. However, the ZnS ability was decreased. In the photocatalytic reaction, the surface of target contaminants, MO and MR, are both negative charges which would lead to repulsion between the contaminants and ZnS at pH=7~12. As the pH value increases, the degradation rate of MO and MR using ZnS would decrease. When initial concentration increases, the formation of electron hole pairs would decline because of less light penetration. Thus, photocatalytic reaction was inhibited. Besides, temperature also plays an important role in the photocatalytic reaction. According to the experiment, the best temperature of photocatalytic reaction for ZnS is 25°C.