Enhancing the Crystallinity of Keto‐enamine‐Linked Covalent Organic Frameworks through an in situ Protection‐Deprotection Strategy

Author:

Koner Kalipada1ORCID,Mohata Shibani1ORCID,Ogaeri Yutaro2ORCID,Nishiyama Yusuke2ORCID,Addicoat Matthew A.3ORCID,Banerjee Rahul1ORCID

Affiliation:

1. Centre for Advanced Functional Materials, Department of Chemical Science Indian Institute of Science Education and Research Kolkata Mohanpur 741246 India

2. JEOL Ltd. Musashino, Akishima Tokyo 196-8558 Japan

3. School of Science and Technology Nottingham Trent University Clifton Lane NG11 8NS Nottingham UK

Abstract

Abstractβ‐Keto‐enamine‐linked 2D covalent organic frameworks (COFs) have emerged as highly robust materials, showing significant potential for practical applications. However, the exclusive reliance on 1,3,5‐triformylphloroglucinol (Tp aldehyde) in the design of such COFs often results in the production of non‐porous amorphous polymers when combined with certain amine building blocks. Attempts to adjust the crystallinity and porosity by a modulator approach are inefficient because Tp aldehyde readily forms stable β‐keto‐enamine‐linked monomers/oligomers with various aromatic amines through an irreversible keto‐enol tautomerization process. Our research employed a unique protection‐deprotection strategy to enhance the crystallinity and porosity of β‐keto‐enamine‐linked squaramide‐based 2D COFs. Advanced solid‐state NMR studies, including 1D 13C CPMAS, 1H fast MAS, 15N CPMAS, 2D 13C−1H correlation, 1H−1H DQ‐SQ, and 14N−1H HMQC NMR were used to establish the atomic‐level connectivity within the resultant COFs. The TpOMe‐Sqm COFs synthesized utilizing this strategy have a surface area of 487 m2 g−1, significantly higher than similar COFs synthesized using Tp aldehyde. Furthermore, detailed time‐dependent PXRD, solid‐state 13C CPMAS NMR, and theoretical DFT studies shed more light on the crystallization and linkage conversion processes in these 2D COFs. Ultimately, we applied this protection‐deprotection method to construct novel keto‐enamine‐linked highly porous organic polymers with a surface area of 1018 m2 g−1.

Funder

Indian Institute of Science Education and Research Kolkata

Publisher

Wiley

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