Construction of highly permeable organic solvent nanofiltration membrane via β-cyclodextrin assisted interfacial polymerization

IF 8.4 1区 工程技术 Q1 ENGINEERING, CHEMICAL Journal of Membrane Science Pub Date : 2023-09-05 DOI:10.1016/j.memsci.2023.122052
Shaoxiao Liu , Fangyuan Yang , Jin Zhou , Yu Peng , Enlin Wang , Junjie Song , Baowei Su
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Abstract

As the key of organic solvent nanofiltration (OSN) technology, OSN membranes could effectively retain small molecules with molecular weight between 200 and 1000 Dalton (Da), but they still face some problems such as low solvent permeance. In this work, we fabricated a poly(amide-ester) selective layer on polyimide substrate surface by introducing β-cyclodextrin (β-CD) into the aqueous phase solution to assist the interfacial polymerization reaction between m-phenylenediamine (MPD) and trimesoyl chloride (TMC), followed by cross-linking and solvent activation treatment. Thus, we successfully fabricated a kind of thin film composite (TFC) membrane with high selective permeability for OSN. We emphasized that extra-low contents were employed for both MPD and β-CD, which were 0.05 wt% and 50 mg L−1, respectively. The effect of β-CD content on the pore size, surface shape, surface hydrophilicity, surface chemistry, filtration performance, as well as durability performance of the OSN membrane was studied in depth. β-CD endows the selective layer with better hydrophilicity and larger pore size. The optimized OSN membrane possesses a Rhodamine B (RDB, 479 Da) rejection of 99.2 % and an ethanol permeance of 70.6 L m−2 h−1 MPa−1. Furthermore, the optimized OSN membrane remains above 99 % RDB rejection after being immersed in DMF at 25 °C for 1000 h, which demonstrates its superb solvent resistance. Additionally, the optimized OSN membrane exhibits outstanding long-time performance and possesses a rejection of 98 % for Jacobsen catalyst during more than 106 h semi-continuous filtration using Jacobsen catalyst/ethyl acetate solution as feed, indicating its vast potential in the recovery of catalyst.

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β-环糊精辅助界面聚合制备高渗透有机溶剂纳滤膜
作为有机溶剂纳滤(OSN)技术的关键,OSN膜可以有效地截留分子量在200 - 1000道尔顿(Da)之间的小分子,但仍面临溶剂渗透率低等问题。本研究通过在聚酰亚胺底物表面引入β-环糊精(β-CD),通过交联和溶剂活化处理,在聚酰亚胺底物表面制备了一层聚(酰胺-酯)选择层,以促进间苯二胺(MPD)和三甲基氯(TMC)之间的界面聚合反应。因此,我们成功地为OSN制备了一种具有高选择渗透率的薄膜复合材料(TFC)膜。我们强调,MPD和β-CD均采用超低含量,分别为0.05 wt%和50 mg L−1。深入研究了β-CD含量对OSN膜的孔径、表面形状、表面亲水性、表面化学性质、过滤性能和耐久性的影响。β-CD使选择层具有更好的亲水性和更大的孔径。优化后的OSN膜对罗丹明B (RDB, 479 Da)的去除率为99.2%,乙醇渗透率为70.6 L m−2 h−1 MPa−1。此外,优化后的OSN膜在25℃DMF中浸泡1000 h后仍保持99%以上的RDB截留率,表明其具有良好的耐溶剂性。此外,优化后的OSN膜在以Jacobsen催化剂/乙酸乙酯溶液为进料的半连续过滤106 h以上时,表现出优异的长效性能,对Jacobsen催化剂的截留率高达98%,表明其在催化剂回收方面具有巨大的潜力。
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来源期刊
Journal of Membrane Science
Journal of Membrane Science 工程技术-高分子科学
CiteScore
17.10
自引率
17.90%
发文量
1031
审稿时长
2.5 months
期刊介绍: The Journal of Membrane Science is a publication that focuses on membrane systems and is aimed at academic and industrial chemists, chemical engineers, materials scientists, and membranologists. It publishes original research and reviews on various aspects of membrane transport, membrane formation/structure, fouling, module/process design, and processes/applications. The journal primarily focuses on the structure, function, and performance of non-biological membranes but also includes papers that relate to biological membranes. The Journal of Membrane Science publishes Full Text Papers, State-of-the-Art Reviews, Letters to the Editor, and Perspectives.
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