Nanocluster-regulated porous ionic rotaxane assemblies with solvent-adaptability for selective adsorption and conductivity

IF 6.1 1区化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR

Inorganic Chemistry Frontiers Pub Date : 2025-04-10 DOI:10.1039/d5qi00535c

Jiaxu Wang, Mingfeng Wei, Zexi Zhu, Bao Li, Lixin Wu

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Abstract

Porous supramolecular assemblies are increasingly recognized for the capabilities in mass transfer and selective loading and release. In this study, a dicationic cyclodextrin[3]rotaxane was synthesized to exhibit adaptivity in the flexible motion between the macrocycle and axle, allowing dynamic structural adjustment during their coassembly with polyanionic nanoclusters. Meanwhile, the anions regulate the assembly to form layered, fibrous, and porous structures. By simply mixing the charged components in solution, the porous ionic rotaxane-cluster assemblies have been prepared, showing selective adsorption and adaptive structural transformations. These assemblies exhibit a "breathing" effect in response to solvent adsorption/desorption, thereby enabling ABE mixture separation. DMSO disrupts hydrogen bonds and ionic interactions, allowing recrystallization to form a porous structure with larger pores. This transition is reversible by returning to the original structure in aqueous solution. The reorganization can change proton conductivity by about three orders between the two structures.

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具有选择性吸附和导电性溶剂适应性的纳米簇调控多孔离子轮烷组件

多孔超分子组件因其传质和选择性加载和释放的能力而越来越受到人们的认可。在本研究中，合成了一种双阳离子环糊精[3]轮烷，它在大环和轴之间的柔性运动中表现出自适应性，可以在它们与聚阴离子纳米团簇的共组装过程中进行动态结构调整。同时，阴离子调节组装形成层状、纤维状和多孔结构。通过在溶液中简单的混合，制备了多孔轮烷簇，并表现出选择性吸附和自适应结构转变。这些组件在响应溶剂吸附/解吸时表现出“呼吸”效应，从而使ABE混合物分离。二甲基亚砜破坏氢键和离子相互作用，允许再结晶形成具有更大孔隙的多孔结构。这种转变是可逆的，可以在水溶液中恢复到原来的结构。这种重组可以使质子的电导率在两种结构之间改变约三个数量级。

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