Nanoporous polymers with permanent porous structure and high surface areas of up to 2084 m(2)/g have been prepared via hypercrosslinking of polystyrene copolymers using Friedel-Crafts alkylation reaction. The hypercrosslinked polymers were prepared in two formats, continuous monolithic blocks, and beads. Optimization of the preparation process and hypercrosslinking conditions enabled generation of microporous beads and monoliths with a pore volume of 0.70-0.78 cm(3)/g and a pore size of around 0.63 nm. The total gravimetric uptake of methane calculated from adsorption isotherms was 0.156 g/g at 65 bar and 273 K and represented a volumetric uptake of 164 cm(3) CH4 (STP) per 1 cm(3) of the sorbent. While the total gravimetric uptake of methane using beads is similar to that of monolith, their volumetric storage capacity is only 82.7 cm(3) (STP) per 1 cm(3) at 65 bar and 273 K due to the inevitable presence of void volumes between the particles. Therefore, the novel continuous monolithic format of the hypercrosslinked polymer was found more advantageous since the monolith can fill the available volume of the container completely and exhibit a volumetric storage capacity that is twice as large as that found for the hypercrosslinked beads. The isosteric heat of CH4 adsorption by both monolith and beads was 14.5 kJ/mol and 15.0 kJ/mol, respectively, which is large enough to adsorb methane at room temperature. The hypercrosslinked monolith could be reused and did not lose its storage capacity even after twenty cycles of repeated use.

• 出版日期2016-12-1
• 单位北京化工大学