Supported ionic liquid and polymer inclusion membranes for metal separation

G. Zante, M. Boltoeva, Abderrazak Masmoudi, R. Barillon, D. Trébouet
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引用次数: 24

Abstract

ABSTRACT Background: Supported liquid membranes (SLMs) and polymer inclusion membranes (PIMs) are an interesting technology for the recovery and separation of metal ions. This kind of membranes could provide the advantages of hydrometallurgy (i.e. high selectivity, possibility to treat low concentration of metals …) without needing a large organic solvent inventory. Problem: However, the large-scale application of SLMs is limited because of the short lifetime of the process. Several authors claimed a longer lifetime when molecular diluents were replaced by ionic liquids (ILs). Possible solutions: In this review, recent advances on the extraction of metals from aqueous solutions using SLMs and PIMs based on ILs are summarized and discussed. The mechanisms of degradation are reported and the improvements as well as limitations outlined. In SLMs, ILs were shown to improve membrane stability. However, stability is improved with viscous ILs having low solubility in water. ILs were used in PIMs as plasticizers and/or carriers and have shown their potential. However, the effect of ILs on PIM structure is not fully understood. To date, extraction of anionic metallic species is the most relevant field of study for SLMs and PIMs. A larger variety of ILs could be studied to apply this technique for a broader range of metals.
用于金属分离的负载型离子液体和聚合物包合膜
背景:支撑液膜(SLMs)和聚合物包合膜(pim)是一种很有前途的金属离子回收分离技术。这种膜可以提供湿法冶金的优点(即高选择性,可以处理低浓度的金属…),而不需要大量的有机溶剂库存。问题:然而,由于过程的生命周期较短,slm的大规模应用受到限制。一些作者声称,当分子稀释剂被离子液体(ILs)取代时,寿命更长。可能的解决方案:本文综述和讨论了近年来利用基于液相色谱的slm和pim从水溶液中提取金属的研究进展。报告了退化的机制,并概述了改进和限制。在slm中,il被证明可以改善膜的稳定性。然而,粘度较低的il在水中的溶解度提高了稳定性。il作为增塑剂和/或载体应用于pim中,并已显示出其潜力。然而,il对PIM结构的影响尚不完全清楚。迄今为止,阴离子金属物种的提取是slm和pim最相关的研究领域。可以研究更多种类的il,以便将该技术应用于更广泛的金属。
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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