期刊论文

Song, YX;Wang, WM

英文

Materials

1996-1944

2024

17

5

1118-

10.3390/ma17051118

This research was funded by [the Major program Natural Science Foundation of Hunan] grant number [2021JC0001], [the National Key Research and Development Program of China] grant number [2022YFD1700101], [the Natural Science Foundation of Hunan] grant number [2022JJ50259 and 2022JJ31014], [the Research Foundation of Education Bureau of Hunan] grant number [22A0193 and 22B0279], [the Science and Technology Talent Support Project of Hunan] grant number [2022TJ-Q19], [the National Natural Science Foundation of China] grant number [52374424] and [the Environmental Research Foundation of Hunan] grant number [HBKT-2022010].

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Transition metals and their oxide compounds exhibit excellent chemical reactivity; however, their easy agglomeration and high cost limit their catalysis applications. In this study, an interpolation structure of a Myriophyllum verticillatum L. biochar-supported Mn/Mg composite (Mn/Mg@MV) was prepared to degrade triphenyl phosphate (TPhP) from wastewater through the activating periodate (PI) process. Interestingly, the Mn/Mg@MV composite showed strong radical self-producing capacities. The Mn/Mg@MV system degraded 93.34% TPhP (pH 5, 10 mu M) within 150 min. The experimental results confirmed th...