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Specific Propyne Trapping Sites within a Robust MOF for Efficient Propyne/Propadiene Separation with Record Propadiene Productivity

Yunjia Jiang, Lingyao Wang, Jianbo Hu, Rajamani Krishna, Banglin Chen, Yuanbin Zhang

2023Advanced Materials35 citationsDOIOpen Access PDF

Abstract

Abstract Separating propyne/propadiene to produce pure propadiene is extremely challenging in industry due to their similar properties. Herein, a novel ZrF 6 2− anion pillared cage‐like metal‐organic framework (termed as CuZrF 6 ‐TPA) for highly efficient propyne/propadiene separation is reported. It exhibits high propyne capacity (177.4/188.6 cm 3 /cm 3 at 0.5/1.0 bar and 298 K), benchmark separation selectivity (6.0), and remarkable separation potential (5.7 mol L −1 ) simultaneously. Record propadiene productivity (≈4.7 mol L −1 ) is achieved through a single adsorption process in breakthrough experiments with excellent recycle stability even under humid conditions. Based on the structure of propyne‐loaded single crystals, two binding sites are identified, including a major propyne trapping site at the windows and a minor binding site located in the large cages. Modelling studies further confirm that the contracted cage windows surrounded with rotating Lewis basic F atoms and aromatic rings are the optimal bonding sites to capture propyne with multiple hydrogen bonding and π···π interactions.

Topics & Concepts

PropyneMaterials scienceDecompositionPhotochemistryPhysical chemistryChemistryOrganic chemistryMetal-Organic Frameworks: Synthesis and ApplicationsCovalent Organic Framework ApplicationsInorganic Fluorides and Related Compounds
Specific Propyne Trapping Sites within a Robust MOF for Efficient Propyne/Propadiene Separation with Record Propadiene Productivity | Litcius