Water pollution has become serious environmental problem nowadays. Advanced oxidation processes(AOP) have been widely applied in water treatment.However, traditional Fenton reaction based on Fe2﹢-H2O2 system has obvious drawbacks, which limit its applications In this study, magnetic Fe3O4core-C shell nanoparticles(Fe3O4@C NPs) were prepared for the decoloration of methylene blue(MB) via the co-precipitation followed by the hydrothermal dehydrogenation of glucose. Fe3O4@C NPs showed high catalytic activity of the decoloration of MB through the decomposition of H2O2 in Fenton-like reactions. Fe3O4@C NPs had much higher activity than bare Fe3O4 cores, suggesting the coating of carbon enhanced the catalytic activity. The performance of Fe3O4@C NPs was better at lower pH and higher temperature, but was significantly inhibited in the presence of radical scavenger tertiary butanol. Fe3O4@C NPs could be magnetic separated and regenerated, and maintained with very good catalytic activity. The implication for the applications of Fe3O4@C NP-catalyzed Fenton-like reactions in water treatment was discussed. Advanced oxidation processes (AOP) have been widely applied in water treatment. Despite, the traditional Fenton reaction based on Fe2 + -H2O2 system has obvious drawbacks, which limit its applications In this study, magnetic Fe3O4core- C shell nanoparticles (Fe3O4 @ C NPs) were prepared for the decoloration of methylene blue (MB) via the co-precipitation followed by the hydrothermal dehydrogenation of glucose. Fe3O4 @ C NPs showed high catalytic activity of the decoloration of MB through the decomposition of H2O2 in Fenton-like reactions. Fe3O4 @ C NPs was much higher activity than bare Fe3O4 cores, suggesting the coating of carbon enhanced the catalytic activity. The performance of Fe3O4 @ C NPs was better at lower pH and higher temperature, but was not in the presence of radical scavenger tertiary butanol. Fe3O4 @ C NPs could be magnetic separated and regenerated, and maintained with very good catalytic activity. The implication for the applications of Fe3O4 @ C NP-catalyzed Fenton-like reactions in water treatment was discussed.