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Ortho‐Alkoxy‐benzamide Directed Formation of a Single Crystalline Hydrogen‐bonded Crosslinked Organic Framework and Its Boron Trifluoride Uptake and Catalysis
Journal article   Peer reviewed

Ortho‐Alkoxy‐benzamide Directed Formation of a Single Crystalline Hydrogen‐bonded Crosslinked Organic Framework and Its Boron Trifluoride Uptake and Catalysis

Fangzhou Li, Errui Li, Krishanu Samanta, Zhaoxi Zheng, Lianqian Wu, Albert D Chen, Omar Farha, Richard Staples, Jia Niu, Klaus Schmidt-Rohr, …
Angewandte Chemie (International ed.)
10/23/2023
Handle:
https://hdl.handle.net/10192/65933
PMID: 37870901

Abstract

Boron trifluoride (BF3) is a highly corrosive gas widely used in industry. Confining BF3 in porous materials ensures safe and convenient handling and prevents its degradation. Hence, it is highly desired to develop porous materials with high adsorption capacity, high stability, and resistance to BF3 corrosion. Herein, we designed and synthesized a Lewis basic single‐crystalline hydrogen‐bond crosslinked organic framework (HCOF‐50) for BF3 storage and its application in catalysis. Specifically, we introduced self‐complementary ortho‐alkoxy‐benzamide hydrogen‐bonding moieties to direct the formation of highly organized hydrogen‐bonded networks, which were subsequently photo‐crosslinked to generate HCOFs. The HCOF‐50 features Lewis basic thioether linkages and electron‐rich pore surfaces for BF3 uptake. As a result, HCOF‐50 shows a record‐high 14.2 mmol/g BF3 uptake capacity. The BF3 uptake in HCOF‐50 is reversible, leading to slow release of BF3. We leveraged this property to reduce the undesirable chain transfer and termination in the cationic polymerization of vinyl ethers. Polymers with higher molecular weights and narrower polydispersity were generated compared to those synthesized using BF3•Et2O. The elucidation of the structure‐property relationship, as provided by the single‐crystal X‐ray structures, combined with the high BF3 uptake capacity and controlled sorption, highlights the molecular understanding of framework‐guest interactions in addressing contemporary challenges.

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