Abstract:Petal-like MoS2 microspheres were synthesized via the hydrothermal reaction of Na2MoO4, CS(NH2)2, and H2C2O4. The crystal form and micro morphology of MoS2 were analyzed by XRD and SEM, and its thermogravimetric and gas precipitation properties were studied via TG–DSC–FTIR. Results indicated that product yield was influenced by the molar ratio of Mo/S, amount of reducing agent, reaction temperature, and reaction time. The crystal form of petal-like MoS2 microspheres was hexagonal 2H-MoS2, which petal-like microspheres diameter was about 1-2 μm with 15-20 nm average thickness of petal. The thermal loss process of MoS2 could roughly be divided into two stages: transformation stage of MoS2 and phase change stage of MoO3, wherein, first stage mainly focused in 221.40 °С~603.15 °С, and second stage occurred in the temperature range of 603.15 °С~1220 °С. MoO2 and MoO3 were generated in the first stage which thermal loss decreased by 22.30%. A phase change of MoO3 from solid to liquid and gas appeared in the second stage. FTIR data showed that there was no SO2 gas at 603.15 °С, which proved MoS2 completely transformation before 600 °С. Compared with common MoS2, the petal-like MoS2 microsphere acted out high reaction activity.