Communications Materials (Jun 2024)

Reproducibility challenges in activating two-dimensional polymers and three-dimensional covalent organic frameworks

  • Rupam Roy,
  • Austin M. Evans

DOI
https://doi.org/10.1038/s43246-024-00536-x
Journal volume & issue
Vol. 5, no. 1
pp. 1 – 10

Abstract

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Abstract Two-dimensional polymers and three-dimensional covalent organic frameworks are crystalline, permanently porous macromolecules. Removing guest molecules from the pores of these materials reliably is challenging because extreme capillary forces are generated when evacuating nanoporous structures. Herein, we outline the most common approaches for isolating and activating these materials. We also note how some methods, such as thermal activation under vacuum, introduce significant challenges with reproducibly activating porous organic materials. Throughout this discussion, we highlight emerging approaches that are most reliable for activating a wide range of materials without damaging their porosity or crystallinity. We also discuss what material features lead to more robust scaffolds towards activation. We hope this review can serve as a resource for experts and newcomers in this field as they determine what activation protocol to use on as-synthesized materials.