In the present study, ZnIn2S4 powder was successfully synthesized via a rapid, template-, surfactant-, and organic solvent-free microwave-hydrothermal route merely at 80°C. The effect of pH value and synthesis temperature was investigated in details. Single phased ZnIn2S4 was obtained via changing the pH value from 1 to 3. Transmission electron microscopic (TEM) studies exhibited the formation of nanosheets on the surface of ZnIn2S4 particles. With the increase in pH value of the precursor solution, the crystallinity of the obtained powders was observed to decrease. When the pH was approximated to 1, large amount of H2S gases arose owing to the increased decomposition of thioacetamide. The evolution of gases might be responsible for the irregular morphology of ZnIn2S4 particles. With the increment in pH value to 2 and 3, the microspherical morphology of ZnIn2S4 particles was observed. However, relatively uniform and large porous microspheres were observed with the pH value equal to 2. The obtained samples exhibited a strong absorption with steep edge in the visible region. The bandgap increased from 2.25 eV to 2.43 eV as the pH value was increased. Furthermore, increased reaction temperature thickened the nanosheets, and led to the formation of floriated particles. The post annealing treatment on the synthesized ZnIn2S4 was also investigated. When the annealing temperature was lower than 400oC, the crystallinity and average crystallite size enlarged as a function of increasing annealing temperature. The crystallinity of the sample annealed at 400 oC was observed to be superior. The post annealing treatment led to an increment in the absorption capability of the sample owing to the reduction of defects, which were responsible for the energy loss during electron transport. Furthermore, improved crystallinity diminished the reflectance and scattering from the irregular arrangement of the crystallites. When annealing temperature rose over 500oC, ZnIn2S4 powder was transformed into indium oxide via oxidation. The band gap of the samples was found to be independent of the annealing temperature, and estimated to be around 2.40 eV. The nanosheets on the surface agglomerated and disappeared with the increase in temperature. Photocatalytic activity was evaluated based on the degradation of methylene blue. Annealing effect resulted in the decay of photocatalytic activities owing to the decrease in specific surface area as well as pore volume. The morphology of ZnIn2S4 particles was changed with the variation in the pH value of the precursor solution and reaction temperature. The sample without post heat treatment was observed to have best photocatalytic activity.