Receptors for the recognition and extraction of lithium

IF 2.5 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Frontiers in chemical engineering Pub Date : 2023-11-30 DOI:10.3389/fceng.2023.1271045

Jianfeng Zhang, Marco Wenzel, Liangrong Yang, R. Luckay, J. Weigand

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Abstract

We summarize advances in lithium recognition receptors, focusing on their use as active reagents in circular processes such as liquid–liquid extraction, an established industrial process that is advantageous due to its large processing capacity and high selectivity. High-performance systems are required, given the increasing demand for effective separation processes for the recovery of valuable substances from spent lithium-ion batteries or the exploration of brines. Hence, the availability of powerful and highly selective receptors is particularly crucial. This mini-review summarizes the development of active receptors for lithium ion extraction and covers advances in receptors for both lithium ions and lithium salts. It discusses various receptor types, ranging from heteroditopic macrocyclic systems to simple β-diketones. The latter achieve particularly high lithium ion extraction yields in the presence of phosphine oxides such as trioctylphosphine oxide. Structural studies employing 4-phosphorylpyrazolone exhibited diverse coordination modes of lithium and represent clear evidence for the synergistic role of the co-ligand on a molecular level.

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识别和提取锂的受体

我们总结了锂识别受体的研究进展，重点关注其在液液萃取等循环工艺中作为活性试剂的应用，液液萃取是一种成熟的工业工艺，因其处理能力大、选择性高而具有优势。鉴于从废锂离子电池或盐水勘探中回收有价值物质对有效分离工艺的需求日益增长，需要高性能的系统。因此，提供功能强大的高选择性受体尤为重要。本微型综述总结了锂离子萃取活性受体的发展情况，涵盖了锂离子和锂盐受体方面的进展。它讨论了各种受体类型，从异位大环系统到简单的 β-二酮。后者在氧化膦（如三辛基氧化膦）存在的情况下，锂离子萃取率特别高。采用 4-膦酰基吡唑啉酮进行的结构研究显示了锂的多种配位模式，清楚地证明了共配体在分子水平上的协同作用。

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