Abstract
Abstract3D‐MoS2can adsorb organic molecules and provide multidimensional electron transport pathways, implying a potential application for environment remediation. Here, we study the degradation of aromatic organics in advanced oxidation processes (AOPs) by a 3D‐MoS2sponge loaded with MoS2nanospheres and graphene oxide (GO). Exposed Mo4+active sites on 3D‐MoS2can significantly improve the concentration and stability of Fe2+in AOPs and keep the Fe3+/Fe2+in a stable dynamic cycle, thus effectively promoting the activation of H2O2/peroxymonosulfate (PMS). The degradation rate of organic pollutants in the 3D‐MoS2system is about 50 times higher than without cocatalyst. After a 140 L pilot‐scale experiment, it still maintains high efficiency and stable AOPs activity. After 16 days of continuous reaction, the 3D‐MoS2achieves a degradation rate of 120 mg L−1antibiotic wastewater up to 97.87 %. The operating cost of treating a ton of wastewater is only US$ 0.33, suggesting huge industrial applications.
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