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Extensive Screening of Solvent‐Linked Porous Polymers through Friedel–Crafts Reaction for Gas Adsorption

Vepa Rozyyev, Yeongran Hong, Mustafa Selman Yavuz, Damien Thirion, Cafer T. Yavuz

2021Advanced Energy and Sustainability Research16 citationsDOIOpen Access PDF

Abstract

Scalability, cost, and feasibility of porous structures in gas capture are prerequisites for emerging materials to be promising in the industry. Herein, a simpler variant of Friedel−Crafts’ synthesis of highly porous covalent organic polymers (COPs) based on an unprecedented solvent‐mediated crosslinking is presented. Alkyl chlorides behave as both solvents and linkers in the presence of AlCl 3 . Studies on three classes of 18 different monomers using dichloromethane, chloroform, and 1,2‐dichloroethane lead to producing 29 new COPs (124−152). Polymers are characterized by Fourier‐transform infrared spectroscopy (FTIR), nuclear magnetic resonance (NMR) spectroscopy, elemental composition analysis, scanning electron microscope (SEM), thermogravimetric analysis (TGA), and porosity analyzer. The synthesized COPs exhibit structures from nonporous to highly porous morphologies with Brunauer–Emmett–Teller (BET) surface areas as high as 1685 m 2 g −1 . These COPs show high gas uptake toward CO 2 (up to 4.71 mmol g −1 at 273 K, 1.1 bar), CH 4 (up to 1.31 mmol g −1 at 273 K, 1.1 bar), and H 2 (up to 2.02 wt% at 77 K, 1.1 bar). The findings point to significant potential in producing sustainable porous materials through simple and scalable methodology developed here.

Topics & Concepts

Thermogravimetric analysisDichloromethanePolymerSolventChemical engineeringFourier transform infrared spectroscopyPorosityAdsorptionMaterials scienceChloroformScanning electron microscopeFriedel–Crafts reactionMonomerChemistryPolymer chemistryOrganic chemistryCatalysisComposite materialEngineeringCovalent Organic Framework ApplicationsMetal-Organic Frameworks: Synthesis and ApplicationsMembrane Separation and Gas Transport
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