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Nanospace Engineering of Metal–Organic Frameworks through Dynamic Spacer Installation of Multifunctionalities for Efficient Separation of Ethane from Ethane/Ethylene Mixtures

Cheng‐Xia Chen, Zhang‐Wen Wei, Tony Pham, Pui Ching Lan, Lei Zhang, Katherine A. Forrest, Sha Chen, Abdullah M. Al‐Enizi, Ayman Nafady, Cheng‐Yong Su, Shengqian Ma

2021Angewandte Chemie International Edition139 citationsDOI

Abstract

Abstract Herein, a dynamic spacer installation (DSI) strategy has been implemented to construct a series of multifunctional metal—organic frameworks (MOFs), LIFM‐61/31/62/63, with optimized pore space and pore environment for ethane/ethylene separation. In this respect, a series of linear dicarboxylic acids were deliberately installed in the prototype MOF, LIFM‐28, leading to a dramatically increased pore volume (from 0.41 to 0.82 cm 3 g −1 ) and reduced pore size (from 11.1×11.1 Å 2 to 5.6×5.6 Å 2 ). The increased pore volume endows the multifunctional MOFs with much higher ethane adsorption capacity, especially for LIFM‐63 (4.8 mmol g −1 ), representing nearly three times as much ethane as the prototypical counterpart (1.7 mmol g −1 ) at 273 K and 1 bar. Meanwhile, the reduced pore size imparts enhanced ethane/ethylene selectivity of the multifunctional MOFs. Theoretical calculations and dynamic breakthrough experiments confirm that the DSI is a promising approach for the rational design of multifunctional MOFs for this challenging task.

Topics & Concepts

EthyleneAdsorptionMetal-organic frameworkSelectivityMaterials scienceChemical engineeringVolume (thermodynamics)Bar (unit)PorosityChemistryOrganic chemistryComposite materialThermodynamicsCatalysisEngineeringMeteorologyPhysicsMetal-Organic Frameworks: Synthesis and ApplicationsCovalent Organic Framework ApplicationsMembrane Separation and Gas Transport
Nanospace Engineering of Metal–Organic Frameworks through Dynamic Spacer Installation of Multifunctionalities for Efficient Separation of Ethane from Ethane/Ethylene Mixtures | Litcius