用于高效分子筛分离的基于2,2'-联苯酚的超薄微孔纳米薄膜

2,2'-Biphenol-based Ultrathin Microporous Nanofilms for Highly Efficient Molecular Sieving Separation.

作者信息

Li Shao-Lu, Chang Guoliang, Huang Yangzheng, Kinooka Ken, Chen Yanting, Fu Wenming, Gong Genghao, Yoshioka Tomohisa, McKeown Neil B, Hu Yunxia

机构信息

State Key Laboratory of Separation Membranes and Membrane Processes, School of Materials Science and Engineering, Tiangong University, Tianjin, 300387, P.R. China Tianjin, 300387, P.R. China.

Research Center for Membrane and Film Technology, Graduate School of Science, Technology and Innovation, Kobe University, Kobe, 657-8501, Japan.

出版信息

Angew Chem Int Ed Engl. 2022 Nov 14;61(46):e202212816. doi: 10.1002/anie.202212816. Epub 2022 Oct 17.

DOI:10.1002/anie.202212816

PMID:36148532

Abstract

Organic solvent nanofiltration (OSN) is an emerging membrane separation technology, which urgently requires robust, easily processed, OSN membranes possessing high permeance and small solutes-selectivity to facilitate enhanced industrial uptake. Herein, we describe the use of two 2,2'-biphenol (BIPOL) derivatives to fabricate hyper-crosslinked, microporous polymer nanofilms through IP. Ultra-thin, defect-free polyesteramide/polyester nanofilms (≈5 nm) could be obtained readily due to the relatively large molecular size and ionized nature of the BIPOL monomers retarding the rate of the IP. The enhanced microporosity arises from the hyper-crosslinked network structure and monomer rigidity. Specifically, the amino-BIPOL/PAN membrane exhibits extraordinary permselectivity performances with molecular weight cut-off as low as 233 Da and MeOH permeance of ≈13 LMH/bar. Precise separation of small dye mixtures with similar M.W. based on both their charge and molecular size are achieved.

摘要

有机溶剂纳滤（OSN）是一种新兴的膜分离技术，迫切需要具有高渗透性和小溶质选择性的坚固且易于加工的OSN膜，以促进其在工业上的广泛应用。在此，我们描述了使用两种2,2'-联苯酚（BIPOL）衍生物通过界面聚合制备超交联微孔聚合物纳米薄膜的方法。由于BIPOL单体相对较大的分子尺寸和离子化性质减缓了界面聚合的速率，因此可以很容易地获得超薄、无缺陷的聚酯酰胺/聚酯纳米薄膜（≈5nm）。微孔率的提高源于超交联网络结构和单体刚性。具体而言，氨基-BIPOL/PAN膜表现出非凡的渗透选择性性能，截留分子量低至233Da，甲醇渗透率约为13LMH/bar。基于电荷和分子大小，实现了对具有相似分子量的小染料混合物的精确分离。

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用于高效分子筛分离的基于2,2'-联苯酚的超薄微孔纳米薄膜

2,2'-Biphenol-based Ultrathin Microporous Nanofilms for Highly Efficient Molecular Sieving Separation.

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