2020
DOI: 10.1021/jacs.0c03330
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Controlled Hierarchical Self-Assembly of Catenated Cages

Abstract: Constructing hierarchical superstructures to achieve comparable complexity and functions to proteins with four-level hierarchy is challenging, which relies on the elaboration of novel building blocks with complex structures. We present a series of catenated cages with unique structural complexity and tailorability. The rational design was realized as such: A catenane of two symmetric cages (CSC), CSC-1, with all rigid imine panels was converted to a catenane of two dissymmetric cages (CDC), CDC-1, with two ext… Show more

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Cited by 47 publications
(27 citation statements)
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“…Our group has been focusing on the elaboration 16,17 and hierarchical self-assembly 18,19 of covalent organic cages prepared by dynamic covalent chemistry (DCC) 7,8 . Due to the dynamic and reversible nature of DCC, it allows error correction to yield the thermodynamic products 20,21 .…”
mentioning
confidence: 99%
“…Our group has been focusing on the elaboration 16,17 and hierarchical self-assembly 18,19 of covalent organic cages prepared by dynamic covalent chemistry (DCC) 7,8 . Due to the dynamic and reversible nature of DCC, it allows error correction to yield the thermodynamic products 20,21 .…”
mentioning
confidence: 99%
“…[ 10 ] The smart dynamic covalent chemistry enables the easy fabrication route of discrete POCs by rationally choosing organic building blocks. [ 11 ] In this direction, imine chemistry has been widely studied by means of reversible connection nature to direct the construction of the target thermodynamic preferred stable product. Introduction of imine nitrogen atoms could serve as effective binding sites and nucleation site for the metal ions and metal nanoparticles, respectively.…”
Section: Background and Originality Contentmentioning
confidence: 99%
“…These molecules include cages with two different pockets, denoted Janus diphanes, which we will report in due course. These molecules with unique shapes and configurations can also be used novel supramolecular synthons for the construction of hierarchical superstructures 13,19 with the potential application of proton conductivity, ferroelectricity, catalysis, and so on, which are the ongoing endeavors within our laboratories.…”
Section: Diphane (Vide Infra)mentioning
confidence: 99%