配位笼选择性地将分子货物输送穿过液态膜。

Coordination Cages Selectively Transport Molecular Cargoes Across Liquid Membranes.

机构信息

University of Cambridge, Department of Chemistry, Cambridge CB2 1EW, U.K.

Randolph-Macon College, Department of Chemistry, Ashland, Virginia 23005, United States.

出版信息

J Am Chem Soc. 2021 Aug 11;143(31):12175-12180. doi: 10.1021/jacs.1c04799. Epub 2021 Aug 2.

DOI:10.1021/jacs.1c04799

PMID:34337947

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8397303/

Abstract

Chemical purifications are critical processes across many industries, requiring 10-15% of humanity's global energy budget. Coordination cages are able to catch and release guest molecules based upon their size and shape, providing a new technological basis for achieving chemical separation. Here, we show that aqueous solutions of FeL and CoL cages can be used as liquid membranes. Selective transport of complex hydrocarbons across these membranes enabled the separation of target compounds from mixtures under ambient conditions. The kinetics of cage-mediated cargo transport are governed by guest binding affinity. Using sequential transport across two consecutive membranes, target compounds were isolated from a mixture in a size-selective fashion. The selectivities of both cages thus enabled a two-stage separation process to isolate a single compound from a mixture of physicochemically similar molecules.

摘要

化学提纯是许多行业的关键过程，需要消耗全球能源预算的 10-15%。配位笼能够根据客体分子的大小和形状捕获和释放客体分子，为实现化学分离提供了新的技术基础。在这里，我们展示了 FeL 和 CoL 笼的水溶液可用作液膜。这些膜可以选择性地传输复杂的碳氢化合物，从而在环境条件下实现目标化合物从混合物中的分离。笼介导的货物传输动力学受客体结合亲和力的控制。通过在两个连续的膜之间进行顺序传输，可以将目标化合物从混合物中以尺寸选择性的方式分离出来。因此，两种笼的选择性使从物理化学性质相似的分子混合物中分离出单一化合物的两步分离过程成为可能。

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配位笼选择性地将分子货物输送穿过液态膜。

Coordination Cages Selectively Transport Molecular Cargoes Across Liquid Membranes.

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