Preparation and characterization of CeO2@high silica ZSM-5 inorganic-organic hybrid polyamide nanofiltration membrane

Nanofiltration with high stable permeance is of great significance for wastewater treatment. Herein, we reported the novel polyamide thin-film composite (PA TFC) nanofiltration membranes prepared for the first time by blending nanometer cerium doped high silica ZSM-5 zeolites (CeO2@HSZSM-5, CHZ) in...

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Published in:Journal of membrane science 2022-01, Vol.641, p.119887, Article 119887
Main Authors: Wu, Qiyuan, Zhang, Shi, Zuo, Xingtao, Liu, Lanxingyu, Xiong, Juan, He, Jiajie, Zhou, Yun, Ma, Cong, Chen, Zhongbing, Yu, Shuili
Format: Article
Language:English
Subjects:
High silica ZSM-5 zeolites
Interfacial polymerization
Nanofiltration
Permeability
Rejection
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Summary:Nanofiltration with high stable permeance is of great significance for wastewater treatment. Herein, we reported the novel polyamide thin-film composite (PA TFC) nanofiltration membranes prepared for the first time by blending nanometer cerium doped high silica ZSM-5 zeolites (CeO2@HSZSM-5, CHZ) in the aqueous phase followed by the classic interfacial polycondensation. The structural morphology of these membranes and their performance had been characterized. SEM and XPS characterizations clearly revealed the presence of inorganic CHZ in the PA layer. The results also showed that the CHZ-integrated inorganic-organic PA TFC membranes with a higher fraction of CHZ had a thinner PA active layer (28.3 ± 3.6 nm) and slightly enlarged pore size with lower crosslinking degree. The optimized membranes exhibited 1.65-folds pure water permeability of the traditional membrane, 20.3 L/(m2.h.bar) with comparable Na2SO4 and MgSO4 rejection of 95.8% and 91.1%, respectively. The rejection of dyes stayed stable above 96.0% with boosted permeance, and the membrane almost completely removed CR and RB as well as natural organic matters. The composite membrane also sustained superior stability and excellent antifouling performance. The as-prepared CHZ-integrated PA TFC membranes with regulatable structural morphology and superior separation properties enables the potential practical application in wastewater treatment. [Display omitted] •Novel PA TFC membrane was developed via a codeposition of CeO2@HSZSM-5 particles.•A thinner selective layer was obtained with adjustable surface properties.•CHZ@PA membranes showed 1.65-folds pure water flux of traditional membranes.•Almost 100% removal for CR, RB and NOMs were achieved.
ISSN:0376-7388
1873-3123
DOI:10.1016/j.memsci.2021.119887