苯基扩展间苯二酚[4]芳烃：合成及高效碘吸附

Phenyl-Extended Resorcin[4]arenes: Synthesis and Highly Efficient Iodine Adsorption.

作者信息

Li Dongxia, Wu Gengxin, Zhu Yong-Kang, Yang Ying-Wei

机构信息

International Joint Research Laboratory of Nano-Micro Architecture Chemistry, College of Chemistry, Jilin University, 2699 Qianjin Street, 130012, Changchun, P. R. China.

出版信息

Angew Chem Int Ed Engl. 2024 Oct 21;63(43):e202411261. doi: 10.1002/anie.202411261. Epub 2024 Aug 12.

DOI:10.1002/anie.202411261

PMID:38935409

Abstract

The continuous exploration of new analogs of calixarenes and pillararenes unlocks infinite opportunities in supramolecular chemistry and materials. In this work, we introduce a new class of macrocycle, phenyl-extended resorcin[4]arenes (ExR4), a unique and innovative design that incorporates unsubstituted phenylene moieties into the resorcin[4]arene scaffold. Single-crystal analysis reveals a chair-like conformation for per-methylated ExR4 (Me-ExR4) and a twisted "Figure-of-eight" shaped conformation for per-hydroxylated ExR4 (OH-ExR4). Notably, OH-ExR4 demonstrates exceptional adsorption capability toward I ions in an aqueous solution, with a rapid kinetic rate of 1.18×10 g ⋅ mg ⋅ min. Furthermore, OH-ExR4 shows excellent recyclability and potential as a stationary phase in column setups. The discovery of ExR4 opens up new avenues for constructing new macrocycles and inspires further research in functional adsorption materials for water pollutant removal.

摘要

对杯芳烃和柱芳烃新类似物的不断探索为超分子化学和材料领域带来了无限机遇。在这项工作中，我们引入了一类新型大环化合物——苯基扩展间苯二酚[4]芳烃（ExR4），这是一种独特且创新的设计，将未取代的亚苯基部分引入间苯二酚[4]芳烃骨架中。单晶分析表明，全甲基化的ExR4（Me-ExR4）呈椅状构象，而全羟基化的ExR4（OH-ExR4）呈扭曲的“8字形”构象。值得注意的是，OH-ExR4在水溶液中对碘离子表现出卓越的吸附能力，其快速动力学速率为1.18×10 g ⋅ mg ⋅ min。此外，OH-ExR4显示出优异的可回收性，并具有作为柱装置固定相的潜力。ExR4的发现为构建新型大环化合物开辟了新途径，并激发了对用于去除水污染物的功能吸附材料的进一步研究。

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苯基扩展间苯二酚[4]芳烃：合成及高效碘吸附

Phenyl-Extended Resorcin[4]arenes: Synthesis and Highly Efficient Iodine Adsorption.

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