Direct synthesis of anion exchange polymer threaded in a metal-organic framework through in situ polymerization of an ionic liquid

We report one step synthesis of anion exchange polymer threaded in a metal-organic framework (MOF) via in situ polymerization of an ionic liquid (IL) monomer. The ionic liquid 3-methyl-1-vinylimidazolium iodide (3MVIm-I) is water miscible and can be easily impregnated into hydrophilic UiO-66 before...

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Bibliographic Details
Published in:Microporous and mesoporous materials 2018-03, Vol.259, p.255-263
Main Authors: Olorunyomi, Joseph Funso, Chan, Kwong-Yu, Gao, Liang, Voskanyan, Albert A., Li, Chi-Ying Vanessa
Format: Article
Language:English
Subjects:
In situ polymerization
Ion exchange
Ionic liquid
Metal-organic framework
UiO-66
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Summary:We report one step synthesis of anion exchange polymer threaded in a metal-organic framework (MOF) via in situ polymerization of an ionic liquid (IL) monomer. The ionic liquid 3-methyl-1-vinylimidazolium iodide (3MVIm-I) is water miscible and can be easily impregnated into hydrophilic UiO-66 before triggering in situ polymerization to produce the composite. This simple synthesis does not involve an amination step, which was previously required to incorporate anion-exchange function of a polymer threaded into ZIF-8. This method also avoids difficult impregnation of hydrophobic precursors into hydrophilic MOF for in situ ionic liquid formation and their removal. The synthesized P3MVim-I∼UiO-66 composite is tested for anion exchange and cation rejection in aqueous solvent. P3MVim-I∼UiO-66 demonstrates outstanding ion selectivity over pristine UiO-66 and commercial anion exchange resin (Amberlyst A26). Aside the high OH− exchange capacity (6.05 meq g−1), more than 95% of inorganic anions (AuCl4−) and 90% of anionic organic dye (Acid Blue 9) are exchanged by P3MVim-I∼UiO-66 within 30 min. In addition, there is complete rejection of standalone cationic dye (Rhodamine B) by P3MVim-I∼UiO-66 while the pristine UiO-66 exhibits no rejection. Crystallinity of the UiO-66 host is retained after impregnation and ion exchange. [Display omitted] •A novel and simple strategy for threading an anion exchange polymer within MOFs without an amination step is reported.•An ionic liquid is directly inserted into UiO-66 and polymerized in situ under mild conditions.•The anion exchange composite demonstrates excellent anion exchange and cation rejection.•This study further advances the preparation and practical applications of MOF-based anion exchange materials.
ISSN:1387-1811
1873-3093
DOI:10.1016/j.micromeso.2017.08.054