膜
共价键
过氧化氢
化学
共价有机骨架
连接器
化学工程
高分子化学
光化学
有机化学
计算机科学
生物化学
操作系统
工程类
作者
Ziting Zhu,Hongjian Wang,Chenliang Cao,Jiyu Zou,Meidi Wang,Zhiming Zhang,Yuhan Wang,Yuliang Cao,Fusheng Pan,Yu Chen,Zhongyi Jiang
标识
DOI:10.1016/j.memsci.2022.121043
摘要
Hydrogen peroxide (H 2 O 2 ) enrichment is a significant separation process that catches tremendous attention in energy and environment fields. Membrane technology is envisioned as a promising candidate for H 2 O 2 enrichment owing to its cost-effective and environmental-friendly features. However, it is challenging to develop membrane materials tolerant to rigorous operations of H 2 O 2 enrichment. Here, we explored covalent organic frameworks (COFs) as membrane materials for H 2 O 2 enrichment. The all-organic and periodical assembled nature endowed COFs with excellent chemical robustness, which exhibited excellent performance for H 2 O 2 enrichment. A novel mixed linker modulated assembly method was developed to modulate the interfacial polymerization for COF membrane. Hydrazine hydrate (Hz) and p -phenylenediamine (Pa) were chosen as mixed diamine linkers to synthesize the COF layer composed of TpPa and TpHz clusters. By varying the relative proportion of the mixed linkers, the pore size of COF membranes was tuned from 1.70 nm to 0.50 nm, which exhibited more pronounced size-selective ability for the separation of water and H 2 O 2 . Moreover, the water capture ability of membranes was also fortified by introducing hydrophilic linkers during interfacial polymerization process. As a result, the COF membranes showed a total flux of 38.35 kg m −2 h −1 , H 2 O/H 2 O 2 separation factor of 23 and superior long-term operation performance up to 7 days, manifesting the great potential in H 2 O 2 enrichment. Our study may open a novel route for engineering membranes toward molecular separations involving strong oxidative components. • COF membrane was used to separate mixture with strong oxidant for the first time. • Mixed linker modulated method was proposed to fabricate COF membranes. • Narrowed pore size and increased hydrophilicity were simultaneously achieved. • COF membrane had superior separation performance in hydrogen peroxide enrichment.
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