期刊
ENVIRONMENTAL SCIENCE & TECHNOLOGY
卷 56, 期 24, 页码 18018-18029出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.est.2c06582
关键词
nanofiltration; highly selective membrane; desalination; polyamide; antifouling performance
资金
- National Natural Science Foundation of China
- National Key Research and Development Program of China
- ZheJiang MEY Membrane Technol- ogy Co., Ltd.
- [22278406]
- [2021YFC3201402]
In this study, a mix charged NF membrane was prepared using an etching-swelling-planting strategy. The membrane exhibited high salt permeation, high retention of small organics, and excellent antifouling performance.
A nanofiltration (NF) membrane with high salt permeation and high retention of small organics is appealing for the treatment of high-salinity organic wastewater. However, the conventional negatively charged NF membranes commonly show high retention of divalent anions (e.g., SO42-), and the reported positively charged NF membranes normally suffer super low selectivity for small organics/Na2SO4 and high fouling potential. In this work, we propose a novel etching-swelling-planting strategy assisted by interfacial polymerization and mussel-inspired catecholamine chemistry to prepare a mix charged NF membrane. By X-ray photoelectron spectroscopy depth profiling and pore size distribution analysis, it was found that such a strategy could not only deepen the positive charge distribution but also narrow the pore size. Molecular dynamics confirm that the planted polyethyleneimine chains play an important role to relay SO42- ions to facilitate their transport across the membrane, thus reversing the retention of Na2SO4 and glucose (43 vs 71%). Meanwhile, due to the high surface hydrophilicity and smoothness as well as the preservation of abundant negatively charged groups (-OH and -COOH) inside the separation layer, the obtained membrane exhibited excellent antifouling performance, even for the coking wastewater. This study advances the importance of vertical charge distribution of NF membranes in separation selectivity and antifouling performance.
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