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在富勒烯结合方面具有高选择性和可逆性的单晶笼状框架

Single-Crystal Cage Framework with High Selectivity and Reversibility in Fullerene Binding.

作者信息

Huang Shaofeng, Teat Simon J, Wayment Lacey J, Settineri Nicholas S, Chen Hongxuan, Lei Zepeng, Zhang Wei

机构信息

Department of Chemistry, University of Colorado Boulder, Boulder, CO 80309, USA.

Advanced Light Source, Department of Chemistry, Lawrence Berkeley National Laboratory, University of California, Berkeley, CA 94720, USA.

出版信息

Angew Chem Int Ed Engl. 2024 Sep 16;63(38):e202409432. doi: 10.1002/anie.202409432. Epub 2024 Aug 16.

Abstract

Host-guest chemistry, a pivotal branch of supramolecular chemistry, plays an essential role in understanding and constructing complex structures through non-covalent interactions. Organic molecular cages, characterized by their intrinsic confined cavities, can selectively bind a variety of guest molecules. Their host-guest chemistry has been well studied in the solution phase, and several attempts have been made to encode well-defined molecular architectures into solid-state polymeric materials. However, only limited studies have explored their potential in the solid state, where their lack of robustness and less ordered networks significantly hinder practical applications. Herein, we report the synthesis of a single-crystal cage framework and a systematic study of its host-guest chemistry, spanning from the solution state to the solid state. Our studies reveal that the host-guest interactions inherent to the cage are successfully maintained in the solid-state polymeric material. Furthermore, the framework's robustness allows for the guest molecules (fullerene) to be released triggered by an organic acid (trifluoroacetic acid), with subsequent regeneration of the framework through an organic base (triethylamine) treatment. Our findings represent the first synthesis of a robust, single-crystal cage framework exhibiting highly selective and reversible host-guest chemistry, thus showing great potential towards molecular separation application.

摘要

主客体化学是超分子化学的一个关键分支,在通过非共价相互作用理解和构建复杂结构方面发挥着重要作用。有机分子笼具有固有的受限空腔,能够选择性地结合多种客体分子。它们的主客体化学在溶液相中已得到充分研究,并且已经进行了几次尝试将明确的分子结构编码到固态聚合物材料中。然而,只有有限的研究探索了它们在固态中的潜力,在固态中它们缺乏稳定性和不太有序的网络显著阻碍了实际应用。在此,我们报告了一种单晶笼状框架的合成及其主客体化学的系统研究,涵盖从溶液态到固态。我们的研究表明,笼状结构固有的主客体相互作用在固态聚合物材料中得以成功保持。此外,该框架的稳定性使得客体分子(富勒烯)能够由有机酸(三氟乙酸)触发释放,随后通过有机碱(三乙胺)处理使框架再生。我们的研究结果代表了首个具有高选择性和可逆主客体化学的稳定单晶笼状框架的合成,因此在分子分离应用方面显示出巨大潜力。

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