Improving the ion sieving performance of MOF polycrystalline membranes based on interface modification†

IF 3.3 3区化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR

Dalton Transactions Pub Date : 2025-04-09 DOI:10.1039/D5DT00724K

Jianfei Zhao, Haoran Fan, Gaofeng Zhong, Chenfeng Wang, Zhan Li, Jintong Bi, Jingle Xie, Tongdan Chen, Juanli Deng, Jiang Li and Bojun Tan

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Abstract

Metal–organic framework (MOF) membranes exhibit promising potential for high-precision molecule and ion sieving due to their uniform and tunable pore structures. Nevertheless, it remains a challenge to address interfacial compatibility to obtain a high-performance MOF membrane. This is because there is a weak interfacial interaction between the MOF and the substrate, which leads to non-selective areas. This work presents an interface-coating method to facilitate dense nucleation and rapid growth of MOF crystals on the substrate towards reinforcing interaction and eliminating defects. Polydopamine (PDA) and β-cyclodextrin (β-CD) were co-assembled on polyvinylidene fluoride (PVDF) substrates to modify the surface chemistry and enhance interfacial compatibility, thereby facilitating the dense growth of ZIF-8. The ZIF-8/PVDF membranes demonstrated an excellent K⁺ permeance of 0.33 mol m⁻² h⁻¹ and a K⁺/Mg²⁺ selectivity of 30.16. The simulation results indicate that the channel of Mg²⁺ through ZIF-8 must overcome a greater transport energy barrier than that of K⁺, resulting in a higher selectivity of K⁺/Mg²⁺.

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基于界面改性提高MOF多晶膜离子筛分性能的研究

金属有机骨架（MOF）膜由于具有均匀可调的孔结构，在高精度分子和离子筛分中具有广阔的应用前景。然而，为了获得高性能的MOF膜，解决界面相容性仍然是一个挑战。这是因为MOF和衬底之间存在弱的界面相互作用，从而导致非选择性区域。本文提出了一种界面涂覆方法，以促进MOF晶体在衬底上致密成核和快速生长，从而增强相互作用并消除缺陷。将聚多巴胺（PDA）和β-环糊精（β-CD）共组装在聚偏氟乙烯（PVDF）底物上，修饰表面化学性质，增强界面相容性，促进ZIF-8的致密生长。ZIF-8/PVDF膜的K+渗透率为0.33 mol m-2 h-1， K+/Mg2+选择性为30.16。模拟结果表明，Mg2+通过ZIF-8的通道必须克服比K+更大的输运能垒，从而使K+/Mg2+具有更高的选择性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Dalton Transactions 化学-无机化学与核化学

CiteScore

6.60

自引率

7.50%

发文量

1832

审稿时长

1.5 months

期刊介绍： Dalton Transactions is a journal for all areas of inorganic chemistry, which encompasses the organometallic, bioinorganic and materials chemistry of the elements, with applications including synthesis, catalysis, energy conversion/storage, electrical devices and medicine. Dalton Transactions welcomes high-quality, original submissions in all of these areas and more, where the advancement of knowledge in inorganic chemistry is significant.