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Functionalization of Diamine-Appended MOF-Based Adsorbents by Ring Opening of Epoxide: Long-Term Stability and CO<sub>2</sub> Recyclability under Humid Conditions

Jong Hyeak Choe, Hyo-Jin Kim, Min‐Jung Kang, Hongryeol Yun, Sun Young Kim, Su Min Lee, Chang Seop Hong

2022Journal of the American Chemical Society77 citationsDOI

Abstract

Although diamine-appended metal–organic framework (MOF) adsorbents exhibit excellent CO2 adsorption performance, a continuous decrease in long-term capacity during repeated wet cycles remains a formidable challenge for practical applications. Herein, we present the fabrication of diamine-appended Mg2(dobpdc)-alumina beads (een-MOF/Al-Si-Cx; een = N-ethylethylenediamine; x = number of carbon atoms attached to epoxide) coated with hydrophobic silanes and alkyl epoxides. The reaction of epoxides with diamines in the portal of the pore afforded sufficient hydrophobicity, hindered the penetration of water vapor into the pores, and rendered the modified diamines less volatile. een-MOF/Al-Si-C17-200 (een-MOF/Al-Si-C17-y; y = 50, 100, and 200, denoting wt % of C17 with respect to the bead, respectively), with substantial hydrophobicity, showed a significant uptake of 2.82 mmol g–1 at 40 °C and 15% CO2, relevant to flue gas concentration, and a reduced water adsorption. The modified beads maintained a high CO2 capacity for over 100 temperature-swing adsorption cycles in the presence of 5% H2O and retained CO2 separation performance in breakthrough tests under humid conditions. This result demonstrates that the epoxide coating provides a facile and effective method for developing promising adsorbents with high CO2 adsorption capacity and long-term durability, which is a required property for postcombustion applications.

Topics & Concepts

AdsorptionChemistryEpoxideDiamineSilanesAlkylChemical engineeringEpoxyOrganic chemistryPolymer chemistryCatalysisSilaneEngineeringMetal-Organic Frameworks: Synthesis and ApplicationsCarbon Dioxide Capture TechnologiesMembrane Separation and Gas Transport