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Record Complexity in the Polycatenation of Three Porous Hydrogen-Bonded Organic Frameworks with Stepwise Adsorption Behaviors. | LitMetric

AI Article Synopsis

  • - Hydrogen-bonded organic frameworks (HOFs) have potential applications, but little is known about how their structures relate to their properties.
  • - The study discovered that using a rigid, planar ligand leads to complex 2D undulated layers and three polycatenated HOFs, while a similar nonplanar ligand results in a lack of undulation.
  • - These newly developed HOFs display unique properties, such as stepwise adsorption under pressure, high chemical stability, and better performance in adsorbing aromatic compounds, which could inform future HOF material designs.

Article Abstract

Hydrogen-bonded organic frameworks (HOFs) show great potential in many applications, but few structure-property correlations have been explored in this field. In this work, we report that self-assembly of a rigid and planar ligand gives rise to flat hexagonal honeycomb motifs which are extended into undulated two-dimensional (2D) layers and finally generate three polycatenated HOFs with record complexity. This kind of undulation is absent in the 2D layers built from a very similar but nonplanar ligand, indicating that a slight torsion of ligand produces overwhelming structural change. This change delivers materials with unique stepwise adsorption behaviors under a certain pressure originating from the movement between mutually interwoven hexagonal networks. Meanwhile, high chemical stability, phase transformation, and preferential adsorption of aromatic compounds were observed in these HOFs. The results presented in this work would help us to understand the self-assembly behaviors of HOFs and shed light on the rational design of HOF materials for practical applications.

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Source
http://dx.doi.org/10.1021/jacs.0c02406DOI Listing

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