Asymmetric polyamide nanofilm boosted by protonated dendrimer porous intermediate layer for Li + /Mg 2+separation
JOURNAL OF MEMBRANE SCIENCE(2024)
摘要
Nanofiltration membrane with fine-tuned pore structure and inner charge can achieve the efficient extraction of Li resource from Salt Lake. Herein, we synthesized three water -soluble dendrimers with 128, 256, and 512-aromatic amine groups that enable to be protonated to show positive charge. Protonated dendrimer porous intermediate layer, thus can be designed and fabricated via diazotization-coupling reaction, which imparts interfacial polymerization polyamide dense layer with optimized screening pore structure and decreased inner negative charge. Enhanced water/salt permeance was obtained due to the formation of nanostripe structure and thinner thickness of separation layer, as high as 360.87 kg m -2 h -1 MPa - 1 for 2000 ppm LiCl. Furthermore, the asymmetric polyamide nanofilm with decreased negative charge density provided 11.52 times of Li + /Mg 2+ separation selectivity compared to the pristine counterparts. For example, the PSF-160A-PA membrane exhibited a Li + /Mg 2+ selectivity of 45.8. Higher cut -off lines between water permeance and Li + /Mg 2+ separation selectivity were achieved, while achieving higher Li purity and Li recovery was observed, which was better than some of literature-reported membranes. This work presents a scalable strategy to fine -tune the structural feature of intermediate layer, then form defect-free polyamide nanofilm for accurate ion sieving.
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关键词
Li+/Mg2+separation,Asymmetric polyamide nanofilm,Water-soluble dendrimer,Protonated intermediate layer
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