膜
渗透汽化
材料科学
聚合物
化学工程
膜技术
合成膜
肿胀 的
甲醇
聚合
乙醚
高分子化学
分离(统计)
有机化学
纳滤
气体分离
色谱法
化学稳定性
聚酰亚胺
有机聚合物
作者
Kangkang Jiang,X X Li,Ye Liang,Langhui Wu,J G Zhu,Jie Yang,Bin Xiang,Liping Luan,Zheng Wang,X. P. Liu
标识
DOI:10.1021/acsami.5c20570
摘要
High-performance membrane materials serve as the cornerstone for advancing the industrial application of membrane separation technology and the development of membrane science theory. The swelling of polymer membranes by organic solvents results in a reduced separation performance, which limits the application of polymer materials in organic separation systems. A series of cross-linked benzimidazole-and-imine-linked polymer (BIILP) membranes with high separation performance were fabricated via interfacial polymerization accompanied by facile post-treatment. The membrane exhibited a total flux of 2.80 kg·m-2·h-1 and an exceptionally high separation factor of 4.80 × 104 during the pervaporation (PV) separation of a 50 wt % methanol (MeOH)/methyl tert-butyl ether (MTBE) organic mixture at 50 °C. The membrane maintained its separation performance with only a marginal reduction after a 120 h PV stability test. The outstanding separation performance and high stability position BIILP membranes as strong candidates for scalable production and industrial application among polymer membranes.
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