Abstract
In this paper, MIL-101(Fe) and MoS2 composites (MIL-101(Fe)/MoS2) were synthesized using a facile solvothermal method. As a new degradation system, the synthesized composites were investigated using persulfate (PS) activation based on visible light (Vis). To establish the superiority of a heterogeneous photochemical catalysis system, the MIL-101(Fe)/MoS2 was used as the catalyst in the presence of Na2S2O8 with visible light irradiation. In the system mentioned, the MIL-101(Fe)/MoS2 catalyst presented a much better catalytic ability than that of either a single photocatalysis or chemocatalysis system. The better catalytic ability suggests that the MIL-101(Fe)/MoS2 catalyst was capable of effectively integrating photocatalysis and chemocatalysis leading to the highest degradation efficiency of 85% in 40 min with tetracycline as the target pollutant. The catalytic system MIL-101(Fe)/MoS2/PS/Vis degraded TC pollutant by forming species of O2‾, 1O2, hydroxyl radicals (•OH) and sulfate radicals (•SO4‾) to degrade TC. Furthermore, the MIL-101(Fe)/MoS2 catalyst displayed better catalytic performance compared to those materials that were previously reported, as verified by the good stability (reached 80% after three cycles) and the high TC degradation rate (85%) of the currently developed material. This system may be applicable to the degradation of TC and other challenging organic pollutants.
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More From: Colloids and Surfaces A: Physicochemical and Engineering Aspects
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