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当前位置: 首页   >  课题组新闻   >  祝贺王丹丹博士的文章“Bi2MoO6/MgIn2S4 S-scheme heterojunction with rich oxygen vacancies for effective organic pollutants degradation: degradation pathways, biological toxicity assessment, and mechanism research”被 Journal of Solid State Chemistry(中科院三区)接收!
祝贺王丹丹博士的文章“Bi2MoO6/MgIn2S4 S-scheme heterojunction with rich oxygen vacancies for effective organic pollutants degradation: degradation pathways, biological toxicity assessment, and mechanism research”被 Journal of Solid State Chemistry(中科院三区)接收!
发布时间:2024-10-15

Bi2MoO6/MgIn2S4 S-scheme heterojunction with rich oxygen vacancies for effective organic pollutants degradation: degradation pathways, biological toxicity assessment, and mechanism research

富含氧空位的Bi2MoO6/MgIn2SS型异质结用于有效降解有机污染物:降解途径,生物毒性评估和机理研究



通过溶剂热法将棒状MgIn2S4负载在花状Bi2MoO6表面,制备了不同复合比例的BMO/MIS-X%复合材料并对其进行表征,其中BMO/MIS-8%RhB的去除率达到100%,其降解速率常数为0.1035 min-1,分别是Bi2MoO6MgIn2S420.29倍、1.95倍。四次循环降解实验证明BMO/MIS-8%具有良好的稳定性。


Bi2MoO6/MgIn2S4 composites were prepared by loading rod-shaped MgIn2S4 on flower-shaped Bi2MoO6 surface by solvothermal method, and BMO/MIS-X% composites with different composite proportions were prepared and characterized. Among them, BMO/MIS-8% had the best photocatalytic degradation performance, with a removal efficiency of 100% for RhB, with a degradation rate constant of 0.1035 min-1, which is 20.29 times and 1.95 times higher than Bi2MoO6 and MgIn2S4, respectively. Four cycles of degradation experiments have shown that BMO/MIS-8% has good stability.



Bi2MoO6/MgIn2S4光催化降解RhB的机理

Mechanism of RhB photocatalytic degradation by Bi2MoO6/MgIn2S4


期刊名称:Journal of Solid State Chemistry

中科院分区:中科院三区

发表日期:2024年10月15日

文章链接:https://doi.org/10.1016/j.jssc.2024.125054

作者列表:Dandan Wang, Zhaoxin Lin, Weiting Yang*, Hongji Li*, Zhongmin Su

期刊信息:J. Solid. State. Chem. 2025, 341, 125054.