Templating metal-organic framework into fibrous nanohybrids for large-capacity and high-flux filtration interception,Journal of Membrane Science,2021,Lili Lv, Xiangsheng Han, Minghao Mu, Xiaochen Wu, Chaoxu Li,DOI:10.1016/j.memsci.2021.119049-成果-仿生智能材料研究组  
Templating metal-organic framework into fibrous nanohybrids for large-capacity and high-flux filtration interception,Journal of Membrane Science,2021,Lili Lv, Xiangsheng Han, Minghao Mu, Xiaochen Wu, Chaoxu Li,DOI:10.1016/j.memsci.2021.119049 2021 绿色环保材料 论文
wangsuxv 2022-5-31 929

Engineering metal-organic-frameworks (MOFs) into flexible hybrid membranes has been endeavored to entrap various molecules through a conventional filtration process. In most cases, both the rejection ratio and adsorption capacity may be limited by a low MOF loading amount, polymeric coating barrier, or large flow flux. It remains challenging to achieve the combination of large-capacity adsorption, high flux and large rejection ratio in an individual filtration setup. Herein through an in-situ templating synthesis, nanofibers of zeolitic imidazolate frame work-8 (ZIF-8) with the distinct diameters of ~20 nm and ~100 nm were produced by coating on aramid nanofibrils and silk microfibrils, respectively. With the super loading amount of ZIF-8 up to ~70 wt%, these fibrous nanohybrids enabled to produce spider-web-like membranes with both the high rejection ratio (>99%) and large flow flux (up to ~390 L m-2 h-1 bar-1 at thickness of ~120 μm). Their superior adsorption capacities for organic dyes also ensured the maintenance of high rejection ratios at high flow flux for large-volume filtration. Thus, the template of two types of nanofibrils may offer a facile method to design web-like MOF membranes with hierarchical microstructures and to intercept a large amount of specific molecules through a continuous “one-pass” filtration process for practical applications.

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最后于 2022-6-6 被lchaoxu编辑 ,原因:
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