罗丹明B
光催化
吸附
废水
化学
杰纳斯
环境修复
水溶液
三聚氰胺
海绵
化学工程
污染物
聚二甲基硅氧烷
介孔材料
水处理
地下水修复
碳纤维
亚甲蓝
接触角
吸附
人体净化
纳米技术
饮用水净化
材料科学
盐酸四环素
降级(电信)
污水处理
作者
Xu Xu,Xinyu Liu,Xixi Wei,Yuchi Liu,Lei Zhang
出处
期刊:Langmuir
[American Chemical Society]
日期:2025-11-04
卷期号:41 (45): 30265-30275
标识
DOI:10.1021/acs.langmuir.5c03770
摘要
The escalating issue of oil contamination and aqueous persistent pollutants necessitates advanced remediation materials. In this study, an asymmetric Janus sponge was synthesized using a synthetic BiOBr semiconductor to in situ grow CAU-17 metal-organic frameworks (MOFs) and serve as a Bi3+ donor. One side of the melamine sponge (MS) was functionalized with hydrophilic BiOBr/CAU-17, while the opposite side was modified with polydimethylsiloxane (PDMS) to achieve superhydrophobicity. This design resulted in a Janus sponge with contrasting wettability: the PDMS-coated side displayed a water contact angle exceeding 150.4°, attributed to low surface energy from interconnected 3D porous channels and hydrophobic PDMS carbon chains. This enabled selective oil adsorption (15-38 times its own weight) and >99% water separation efficiency. The BiOBr/CAU-17@MS interface demonstrated potent photocatalytic activity, degrading rhodamine B, methylene blue, and tetracycline hydrochloride with 97% efficiency under visible light, even at high pollutant concentrations (50 mg/L). These findings highlight the Janus sponge's dual functionality for simultaneous oil-water separation and degradation of organic contaminants, offering a promising solution for treating complex wastewater containing both oils and dissolved pollutants.
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