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Bashta, Bogdana; Havelková, Lucie; Sokol, Jiří; Brus, Jiří; Sedláček, Jan
Microporous and mesoporous materials, January 2022, 2022-01-00, Letnik: 330Journal Article
A new method for the formation of permanent micropores in hyper-cross-linked networks is reported. This method is based on a template approach, using small molecules (4-methylaniline and 4-methylbenzaldehyde) as templates. These molecules are covalently attached via azomethine links to parent non-porous hyper-cross-linked polyacetylene networks prepared by chain-growth homo and copolymerization of ethynylated monomers. Highly efficient and well-defined postpolymerization hydrolysis of the networks leads to (i) cleavage of azomethine links and (ii) removal of the template molecules from the networks. Although up to 40 wt % of the mass of the networks are removed via hydrolysis, the hyper-cross-linked scaffold of the networks is not collapsed and micropores are formed in the networks. In this way, the parent non-porous networks are transformed into networks with permanent micropores (diameter ∼1 nm) and a specific surface area up to 623 m2/g−1. Simultaneously with the formation of micropores, functional groups (NH2, CHO) are introduced into the networks. The prepared microporous networks adsorb the model adsorptives (up to 1.73 mmol CO2/g and up to 6.53 mmol I2/g.). The detemplating and micropores formation is confirmed by solid state NMR spectra and N2 adsorption/desorption isotherms. The reported method of micropores formation could find a wider application for the preparation of microporous polymers with a well-defined texture and surface functionalization. Not only azomethine links but also many other groups with cleavable bonds could potentially be used for templating with covalently attached small molecules. The template-assisted formation of permanent micropores (diameter ∼1 nm) in polymer networks is reported as a new method for the preparation of microporous polymers. The small template molecules covalently attached to non-porous hyper-cross-linked polyacetylene networks are hydrolytically released and removed with high efficiency and the networks are transformed to functionalized (NH2, CHO groups) microporous polymers with SBET ∼500 m2/g. Display omitted •Synthesis of microporous hyper-cross-linked polyacethylene networks.•Introduction of microporosity exclusively by templating approach.•Micropores formed by removing Schiff-base linked molecules from non-porous networks.•Micropores formation accompanied by functionalization with CHO and NH2 groups.
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JCR | SNIP | JCR | SNIP | JCR | SNIP | JCR | SNIP |
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