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基于金属有机框架的混合基质膜(MMM-MOFs)高效回收镍和钴

Efficient Nickel and Cobalt Recovery by Metal-Organic Framework-Based Mixed Matrix Membranes (MMM-MOFs).

作者信息

Nour Amira, Iqbal Waseem, Navarro-Alapont Javier, Ferrando-Soria Jesús, Magarò Pietro, Elliani Rosangela, Tagarelli Antonio, Maletta Carmine, Mastropietro Teresa F, Pardo Emilio, Armentano Donatella

机构信息

Dipartimento di Chimica e Tecnologie Chimiche (CTC), Università della Calabria, Rende 87036, Italy.

Instituto de Ciencia Molecular (ICMol), Universidad de Valencia, Valencia 46980, Spain.

出版信息

ACS Sustain Chem Eng. 2024 Jul 31;12(32):12014-12028. doi: 10.1021/acssuschemeng.4c03427. eCollection 2024 Aug 12.

DOI:10.1021/acssuschemeng.4c03427
PMID:39148518
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11323268/
Abstract

Green energy transition has supposed to give a huge boost to the electric vehicle rechargeable battery market. This has generated a compelling demand for raw materials, such as cobalt and nickel, which are key common constituents in lithium-ion batteries (LIBs). However, their existing mining protocols and the concentrated localization of such ores have made cobalt and nickel mineral conundrums, and their supplies experience shortages, which threaten to slow the progress of the renewable energy transition. Aiming to contribute to the sustainable recycling of these valuable metals from LIBs and wastewater, in this work, we explore the use of four mixed matrix membranes (MMMs) embedding different metal-organic frameworks (MOFs), i.e., , , , and {SrCu (,)-serimox(HO)}·39HO ( ) in polyether sulfone (PES), for the recovery of cobalt(II) and nickel(II) metal cations from mixed cobalt-nickel aqueous solutions containing common interfering ions. Whereas the neat PES membrane slightly contributes to the adsorption of metal ions, showing reduced removal efficiency values of 10.2 and 9.5% for Ni(II) and Co(II), respectively, the inclusion of MOFs in the polymeric matrix substantially improves the adsorption performances. The four MOF@PES MMMs efficiently remove these metals from water, with being the one that presents better performance, with a removal efficiency up to 95% of Ni(II) and Co(II). Remarkably, exhibits outstanding selectivity toward cobalt(II) cations compared to of nickel(II) ones, with removal efficiencies of 63.7 and 15.1% for Co(II) and Ni(II), respectively. Overall, the remarkable efficiencies, versatility, high environmental robustness, and cost-effective synthesis shown by this family of MOF@PES MMMs situate them among the best adsorbents for the extraction of this kind of contaminants.

摘要

绿色能源转型本应极大地推动电动汽车可充电电池市场。这引发了对钴和镍等原材料的迫切需求,而钴和镍是锂离子电池(LIBs)的关键常见成分。然而,它们现有的开采协议以及此类矿石的集中产地导致钴和镍成为矿产难题,其供应出现短缺,这有可能减缓可再生能源转型的进程。为了有助于从锂离子电池和废水中可持续回收这些有价值的金属,在本研究中,我们探索了使用四种混合基质膜(MMMs),它们在聚醚砜(PES)中嵌入了不同的金属有机框架(MOFs),即 、 、 和{SrCu(,)-丝氨酸肟(H₂O)}·39H₂O( ),用于从含有常见干扰离子的钴镍混合水溶液中回收钴(II)和镍(II)金属阳离子。纯PES膜对金属离子的吸附作用较小,对Ni(II)和Co(II)的去除效率分别为10.2%和9.5%,而在聚合物基质中加入MOFs则显著提高了吸附性能。这四种MOF@PES MMMs能有效地从水中去除这些金属,其中 表现出最佳性能,对Ni(II)和Co(II)的去除效率高达95%。值得注意的是, 对钴(II)阳离子的选择性明显高于镍(II)阳离子,Co(II)和Ni(II)的去除效率分别为63.7%和15.1%。总体而言,这类MOF@PES MMMs所展现出的卓越效率、多功能性、高环境稳定性和经济高效的合成方法,使其跻身于提取此类污染物的最佳吸附剂之列。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/438f/11323268/892ffe189b12/sc4c03427_0009.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/438f/11323268/def43fede0c1/sc4c03427_0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/438f/11323268/b834764957cd/sc4c03427_0004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/438f/11323268/34fde58d229f/sc4c03427_0005.jpg
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