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Confining organic cations in metal organic framework allows molecular level regulation of <scp>CO<sub>2</sub></scp> capture

TingTing Wang, Biao Meng, Yang Zhou, Yang Zhou, Yuan Wang, Lei Wang, Lifeng Ding, Yu Zhou, Yu Zhou, Jun Wang

2023AIChE Journal16 citationsDOIOpen Access PDF

Abstract

Abstract High tunability of both ionic liquids (ILs) and metal organic frameworks (MOFs) enables great opportunity in the rational designation of IL/MOF composites for physical adsorption and separation. Traditionally, cations and anions of ILs as an entirety are combined with MOFs either inside or outside the microchannels. Herein, organic cations of ILs were confined into Cu‐BTC and the champion adsorbent is obtained by using 1‐propionic acid‐3‐vinylimidazole bromide as the precursor with a moderate loading amount, exhibiting higher CO 2 uptakes of 8/5 mmol g −1 than Cu‐BTC (6.0/3.5 mmol g −1 ) at 273/298 K and 100 kPa, associating with significantly improved CO 2 /N 2 (CH 4 ) selectivities. The organic cations are interacted with two adjacent CuII 2 (CRO 2 ) 2 paddle wheel units of Cu‐BTC, expanding the CuO bond to strengthen the CO 2 affinity of open Cu sites and also serving as an additive CO 2 adsorptive site. The promotion of CO 2 capture ability is further reflected in the dynamic column breakthrough experiment.

Topics & Concepts

AdsorptionChemistryBromideMetal-organic frameworkIonic liquidInorganic chemistryMetalChemical engineeringCatalysisPhysical chemistryOrganic chemistryEngineeringMetal-Organic Frameworks: Synthesis and ApplicationsCarbon Dioxide Capture TechnologiesCovalent Organic Framework Applications
Confining organic cations in metal organic framework allows molecular level regulation of <scp>CO<sub>2</sub></scp> capture | Litcius