期刊
MICROPOROUS AND MESOPOROUS MATERIALS
卷 324, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.micromeso.2021.111272
关键词
Al-TCPP nanosheets; Water-stable; Hierarchical porous structures; Adsorption; Chlorantraniliprole
类别
资金
- National Natural Science Foundation of China [21504043]
- Postgraduate Research & Practice Innovation Program of Jiangsu Province [KYCX20_0989]
- Overseas Visiting and Training Program for Outstanding Young Talents of Colleges and Uni-versities of Anhui [gxgwfx2018080]
- Key Discipline of Materials Science and Engineering, Chizhou University [czxyylxk03]
This study successfully constructed a highly efficient and stable adsorbent, Al-TCPP nanosheets, for the removal of hazardous pesticide from water. The maximum adsorption capacity of chlorantraniliprole on Al-TCPP nanosheets was significantly higher than that of bulk crystals, indicating their potential for application in water treatment.
The present work described the construction of a highly-efficient and stable adsorbent for removing hazardous pesticide from water. Water-stable metal-organic framework (MOF) nanosheets with three-dimensional (3D) structure, named as Al-TCPP nanosheets, were fabricated using aluminum (III) chloride hexahydrate and tetrakis (4-carboxyphenyl) porphyrin as the monomers with the assistance of a cetyltrimethylammonium bromide. Al-TCPP nanosheets and bulk crystals were comprehensively characterized to explore their differences in morphologies, microstructures and porous properties. Al-TCPP nanosheets kept the original crystal structure with an average thickness of similar to 17 nm. They also displayed excellent hydrophilic property, water stability and hierarchical porous structure with the surface area of 1359 m(2) g(-1), which were beneficial to the adsorption of chlorantraniliprole. Adsorption experiments were carried out and the maximum adsorption capacity of chlor-antraniliprole on Al-TCPP nanosheets achieved 371.91 mg g(-1), which was obviously higher than that of the bulk crystals (222.11 mg g(-1)). The disparity should be attributed to the hierarchical porous structures and highly exposed active sites of nanosheets. These results illuminate that MOF nanosheets can be a promising material for the adsorption of hazardous contaminants in water treatment.
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