Pore-Networked Gels: Permanently Porous Ionic Liquid Gels with Linked Metal–Organic Polyhedra Networks

多孔性 化学 离子液体 微型多孔材料 溶剂 化学工程 吸附 相(物质) 二甲基甲酰胺 多孔介质 有机化学 催化作用 工程类
作者
Zaoming Wang,Aydın Özcan,Gavin A. Craig,Frederik Haase,Takuma Aoyama,Daria Poloneeva,Keiji Horio,Masakazu Higuchi,Ming‐Shui Yao,Cara M. Doherty,Guillaume Maurin,Kenji Urayama,Anastasiya Bavykina,Satoshi Horike,Jorge Gascón,Rocío Semino,Shuhei Furukawa
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:145 (26): 14456-14465 被引量:36
标识
DOI:10.1021/jacs.3c03778
摘要

Porous liquids (PLs) are attractive materials because of their capability to combine the intrinsic porosity of microporous solids and the processability of liquids. Most of the studies focus on the synthesis of PLs with not only high porosity but also low viscosity by considering their transportation in industrial plants. However, a gap exists between PLs and solid adsorbents for some practical cases, where the liquid characteristics and mechanical stability without leakage are simultaneously required. Here, we fill in this gap by demonstrating a new concept of pore-networked gels, in which the solvent phase is trapped by molecular networks with accessible porosity. To achieve this, we fabricate a linked metal-organic polyhedra (MOPs) gel, followed by exchanging the solvent phase with a bulky liquid such as ionic liquids (ILs); the dimethylformamide solvent trapped inside the as-synthesized gel is replaced by the target IL, 1-butyl-3-methylimidazolium tetrafluoroborate, which in turn cannot enter MOP pores due to their larger molecular size. The remaining volatile solvents in the MOP cavities can then be removed by thermal activation, endowing the obtained IL gel (Gel_IL) with accessible microporosity. The CO2 capacities of the gels are greatly enhanced compared to the neat IL. The exchange with the IL also exerts a positive influence on the final gel performances such as mechanical properties and low volatility. Besides ILs, various functional liquids are shown to be amenable to this strategy to fabricate pore-networked gels with accessible porosity, demonstrating their potential use in the field of gas adsorption or separation.
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