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3D covalent organic framework membrane with fast and selective ion transport.

Tianhao ZhuYan KongBohui LyuLi CaoBenbing ShiXiaoyao WangXiao PangChunyang FanChao YangHong WuZhongyi Jiang
Published in: Nature communications (2023)
3D ionic covalent organic framework (COF) membranes, which are envisioned to be able to break the trade-off between ion conductivity and ion selectivity, are waiting for exploitation. Herein, we report the fabrication of a 3D sulfonic acid-functionalized COF membrane (3D SCOF) for efficient and selective ion transport, using dual acid-mediated interfacial polymerization strategy. The 3D SCOF membranes possess highly interconnected ion transport channels, ultramicroporous pore sizes (0.97 nm), and abundant sulfonate groups (with a high ion exchange capacity of 4.1 mmol g -1 ), leading to high proton conductivity of 843 mS cm -1 at 90 °C. When utilized in osmotic energy conversion, a high power density of 21.2 W m -2 , and a remarkable selectivity of 0.976 and thus an exceptional energy conversion efficiency of 45.3% are simultaneously achieved. This work provides an alternative approach to 3D ionic COF membranes and promotes the applications of 3D COFs in ion transport and separation.
Keyphrases
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