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

Author:

Huang Shaofeng1,Teat Simon J.2,Wayment Lacey J.1,Settineri Nicholas S.2,Chen Hongxuan1,Lei Zepeng1,Zhang Wei1ORCID

Affiliation:

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

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

Abstract

AbstractHost‐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.

Funder

U.S. Department of Energy

Publisher

Wiley

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