具有离子筛分吸附效应的响应性金属有机框架实现可持续锂提取。

Sustainable lithium extraction enabled by responsive metal-organic frameworks with ion-sieving adsorption effects.

作者信息

Wu Xu, Zhang Huacheng, Zhang Xinyu, Guan Qian, Tang Xiaocong, Wu Hao, Feng Mingbao, Wang Huanting, Ou Ranwen

机构信息

Ecological Engineering for Environmental Sustainability, College of the Environment & Ecology, Xiamen University, Xiamen 361104, People's Republic of China.

Chemical and Environmental Engineering, School of Engineering, Royal Melbourne Institute of Technology (RMIT) University, Melbourne, VIC 3000, Australia.

出版信息

Proc Natl Acad Sci U S A. 2024 Feb 6;121(6):e2309852121. doi: 10.1073/pnas.2309852121. Epub 2024 Feb 2.

DOI:10.1073/pnas.2309852121

PMID:38306476

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10861930/

Abstract

Metal-organic frameworks (MOFs) are superior ion adsorbents for selectively capturing toxic ions from water. Nevertheless, they have rarely been reported to have lithium selectivity over divalent cations due to the well-known flexibility of MOF framework and the similar physiochemical properties of Li and Mg. Herein, we report an ion-sieving adsorption approach to design sunlight-regenerable lithium adsorbents by subnanoporous MOFs for efficient lithium extraction. By integrating the ion-sieving agent of MOFs with light-responsive adsorption sites of polyspiropyran (PSP), the ion-sieving adsorption behaviors of PSP-MOFs with 6.0, 8.5, and 10.0 Å windows are inversely proportional to their pore size. The synthesized PSP-UiO-66 with a narrowest window size of 6.0 Å shows high LiCl adsorption capacity up to 10.17 mmol g and good Li/Mg selectivity of 5.8 to 29 in synthetic brines with Mg/Li ratio of 1 to 0.1. It could be quickly regenerated by sunlight irradiation in 6 min with excellent cycling performance of 99% after five cycles. This work sheds light on designing selective adsorbents using responsive subnanoporous materials for environmentally friendly and energy-efficient ion separation and purification.

摘要

金属有机框架材料（MOFs）是用于从水中选择性捕获有毒离子的优异离子吸附剂。然而，由于MOF框架众所周知的灵活性以及锂和镁相似的物理化学性质，很少有报道称它们对锂的选择性高于二价阳离子。在此，我们报道了一种离子筛分吸附方法，通过亚纳米多孔MOFs设计阳光可再生的锂吸附剂，以实现高效的锂提取。通过将MOFs的离子筛分剂与聚螺吡喃（PSP）的光响应吸附位点相结合，窗口尺寸为6.0、8.5和10.0 Å的PSP-MOFs的离子筛分吸附行为与其孔径成反比。合成的窗口尺寸最窄为6.0 Å的PSP-UiO-66在氯化锂吸附容量高达10.17 mmol g，在镁锂比为1至0.1的合成卤水中对锂/镁的选择性良好，为5.8至29。它可以在6分钟内通过阳光照射快速再生，经过五个循环后具有99%的优异循环性能。这项工作为使用响应性亚纳米多孔材料设计选择性吸附剂以实现环境友好和节能的离子分离与纯化提供了思路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4cea/10861930/ba12467e4ff2/pnas.2309852121fig01.jpg

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具有离子筛分吸附效应的响应性金属有机框架实现可持续锂提取。

Sustainable lithium extraction enabled by responsive metal-organic frameworks with ion-sieving adsorption effects.

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