Crown ether-functionalized nanofiltration membranes with high ions selectivity for Li+/Mg2+ separation

IF 8.4 1区 工程技术 Q1 ENGINEERING, CHEMICAL
Chi Jiang , Shibo Bai , Jiawang Li , Ming Wang , Yan Zhou , Yingfei Hou
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Abstract

Extraction of lithium resources from salt lake brines is an effective method to solve the shortage of lithium resources nowadays. However, magnesium-lithium separation has become a critical issue for lithium extraction from salt lakes with high Mg2+/Li+ ratio, due to the similar ionic characteristics of Li+ (0.38 nm), and Mg2+ (0.43 nm). Herein, an amine monomer containing crown ether group (4′-aminobenzo-15-crown-5-ether (NH2–B15C5)) was introduced into the interfacial polymerization (IP) process of piperazine (PIP) and homotrimethylene tricarbonyl chloride (TMC) to prepare polyamide (PA) nanofiltration (NF) membranes with Li+ selective transport channels. NH2–B15C5 shows good compatibility and selective complexation to Li+, which acts as Li+ selective transport channels effectively retaining Mg2+ and allowing Li+ to cross the membrane smoothly, therefore solving the problem of poor lithium-magnesium separation performance of most of the NF membranes currently. Molecular dynamics simulations (MD) also confirmed that NH2–B15C5 has a stronger affinity for Li+ than for Mg2+. The NH2–B15C5/PIP-TMC membrane exhibited excellent separation performance and water permeance in simulated salt lake brine (2000 ppm, WMg/Li = 100), where the SLi, Mg and water permeance were 32.2 and 8.22 L·m−2·h−1·bar−1. Importantly, the crown ether is introduced into the PA separator layer in the form of covalent bonds, hence showing excellent stability. Overall, an NF membrane with high lithium-magnesium separation performance was designed for the extraction of lithium resources from high Mg2+/Li+ ratio salt lake brine.

Abstract Image

用于分离 Li+/Mg2+ 的高离子选择性冠醚功能化纳滤膜
从盐湖卤水中提取锂资源是解决当今锂资源短缺的有效方法。然而,由于 Li+(0.38 nm)和 Mg2+(0.43 nm)具有相似的离子特性,镁锂分离已成为从 Mg2+/Li+ 比率较高的盐湖中提取锂的关键问题。本文在哌嗪(PIP)和均三亚甲基三羰酰氯(TMC)的界面聚合(IP)过程中引入了一种含冠醚基团的胺单体(4′-氨基苯并-15-冠-5-醚(NH2-B15C5)),以制备具有 Li+ 选择性传输通道的聚酰胺(PA)纳滤膜(NF)。NH2-B15C5 与 Li+ 具有良好的相容性和选择性络合,可作为 Li+ 的选择性传输通道,有效截留 Mg2+,使 Li+ 顺利穿过膜,从而解决了目前大多数纳滤膜锂镁分离性能差的问题。分子动力学模拟(MD)也证实了 NH2-B15C5 对 Li+ 的亲和力强于对 Mg2+的亲和力。NH2-B15C5/PIP-TMC 膜在模拟盐湖盐水(2000 ppm,WMg/Li = 100)中表现出优异的分离性能和透水性,其中 SLi、Mg 和水的渗透率分别为 32.2 和 8.22 L-m-2-h-1-bar-1。重要的是,冠醚是以共价键的形式进入 PA 分离层的,因此表现出卓越的稳定性。总之,针对从高 Mg2+/Li+ 比率盐湖卤水中提取锂资源,设计出了一种具有高锂镁分离性能的 NF 膜。
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
Journal of Membrane Science
Journal of Membrane Science 工程技术-高分子科学
CiteScore
17.10
自引率
17.90%
发文量
1031
审稿时长
2.5 months
期刊介绍: The Journal of Membrane Science is a publication that focuses on membrane systems and is aimed at academic and industrial chemists, chemical engineers, materials scientists, and membranologists. It publishes original research and reviews on various aspects of membrane transport, membrane formation/structure, fouling, module/process design, and processes/applications. The journal primarily focuses on the structure, function, and performance of non-biological membranes but also includes papers that relate to biological membranes. The Journal of Membrane Science publishes Full Text Papers, State-of-the-Art Reviews, Letters to the Editor, and Perspectives.
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