LAUSR

The Fe3O4@graphene composites were prepared by a simple hydrothermal strategy for efficient removal of organic dyes from liquid water. The effects of solution pH, contact time, adsorbent dosage and initial dye concentration on the adsorption performance of Fe3O4@graphene composites were systematically studied and the maximum adsorption capacities of Methyl orange (MO), Rose Red B (RB), Malachite green (MG), Congo red (CR) and Crystal Viollet (CV) on Fe3O4@graphene magnetic composites were found to be 144.9, 105.2, 59.9, 77.9 and 208.3 mg?g-1, respectively. The adsorption studies indicated that pseudo-second-order model could depict adsorption kinetice very well and that Langmuir isotherm model could describe isotherms well. The adsorption capacity of organic dyes on Fe3O4@graphene composites decreases with adsorption?desorption cycling, but still remains more than 42% of its initial adsorption capacity after 5 cycles. The results suggest that combining the high porousity structure, lightweight, and high surface area of graphene composite with the superparamagnetic property of Fe3O4, the prepared Fe3O4@graphene composites are promising candidate for removal of organic dyes pollutions from water effectivily.