CAB-GO/PES混合基质超滤膜的制备及其抗污染性能

Preparation of a CAB-GO/PES Mixed Matrix Ultrafiltration Membrane and Its Antifouling Performance.

作者信息

Wu Haiyan, Wang Ling, Xu Wentao, Xu Zehai, Zhang Guoliang

机构信息

Center for Membrane and Water Science &Technology, State Key Laboratory of Green Chemical Synthesis Technology, Institute of Oceanic and Environmental Chemical Engineering, Zhejiang University of Technology, Hangzhou 310014, China.

Hangzhou Special Equipments Inspection and Research Institute, Hangzhou 310005, China.

出版信息

Membranes (Basel). 2023 Feb 17;13(2):241. doi: 10.3390/membranes13020241.

DOI:10.3390/membranes13020241

PMID:36837744

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9961617/

Abstract

Serious membrane fouling has limited the development of ultrafiltration membrane technology for water purification. Synthesis of an ultrafiltration membrane with prominent anti-fouling ability is of vital importance. In this study, CAB-GO composite nanosheets were prepared by grafting graphene oxide (GO) with a zwitterionic material cocamidopropyl betaine (CAB) with strong antifouling properties. Anti-fouling CAB-GO/PES mixed matrix ultrafiltration membrane (CGM) was prepared by the phase inversion method with polyethersulfone (PES). Due to its electrostatic interaction, the interlayer distance between CAB-GO nanosheets was increased, and the dispersibility of GO was improved to large extent, thereby effectively avoiding the phenomenon of GO agglomeration in organic solvents. Based on the improvement of the surface porosity and surface hydrophilicity of the CAB-GO/PES mixed matrix membrane, the pure water flux of CGM-1.0 can reach 461 L/(m·h), which was 2.5 times higher than that of the original PES membrane, and the rejection rates toward BSA and HA were above 96%. Moreover, when the content of CAB-GO was 0.1 wt%, the prepared CAB-GO/PES membrane exhibited very high BSA (99.1%) and HA (98.1%) rejection during long-term operation, indicating excellent anti-fouling ability.

摘要

严重的膜污染限制了超滤膜技术在水净化领域的发展。合成具有突出抗污染能力的超滤膜至关重要。在本研究中，通过将具有强抗污染性能的两性离子材料椰油酰胺丙基甜菜碱（CAB）接枝到氧化石墨烯（GO）上制备了CAB-GO复合纳米片。采用相转化法，以聚醚砜（PES）制备了抗污染的CAB-GO/PES混合基质超滤膜（CGM）。由于静电相互作用，CAB-GO纳米片的层间距增大，GO的分散性得到很大程度的改善，从而有效避免了GO在有机溶剂中的团聚现象。基于CAB-GO/PES混合基质膜表面孔隙率和表面亲水性的提高，CGM-1.0的纯水通量可达461 L/(m·h)，是原始PES膜的2.5倍，对牛血清白蛋白（BSA）和透明质酸（HA）的截留率均高于96%。此外，当CAB-GO的含量为0.1 wt%时，制备的CAB-GO/PES膜在长期运行过程中对BSA（99.1%）和HA（98.1%）表现出很高的截留率，表明其具有优异的抗污染能力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce79/9961617/ffbc5c66d1d2/membranes-13-00241-g001.jpg

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CAB-GO/PES混合基质超滤膜的制备及其抗污染性能

Preparation of a CAB-GO/PES Mixed Matrix Ultrafiltration Membrane and Its Antifouling Performance.

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