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Selective Uptake of Ethane/Ethylene Mixtures by UTSA-280 is Driven by Reversibly Coordinated Water Defects

Yutao Gong, Xuqing Cai, Wenqin You, Xiao Jiang, Wei Liu, Ryan P. Lively, Krista S. Walton, David S. Sholl

2023Chemistry of Materials15 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide The metal–organic framework (MOF) UTSA-280 has been shown previously to separate ethane/ethylene mixtures. We show that this separation is kinetic; if full equilibrium is reached, the MOF is not selective. The time scales associated with this kinetic separation are sufficient to make the material potentially interesting for practical separations. The observation of kinetic separation is surprising because the MOF’s one-dimensional (1D) channels are small enough that molecular motion along the channels would be expected to take place by single-file diffusion, which is not observed. We show using a combination of experimental and modeling techniques that diffusion of molecules between adjacent 1D channels through local defects associated with coordinated water molecules allows net mixing of molecules and, moreover, that this process is potentially responsible for the selective nature of the observed kinetic separation. We show how activation and regeneration conditions play an essential role in controlling the density of these local defects.

Topics & Concepts

Kinetic energyDiffusionMoleculeChemical physicsEthyleneChemistryMixing (physics)Computational chemistryChemical engineeringThermodynamicsCatalysisOrganic chemistryEngineeringQuantum mechanicsPhysicsMetal-Organic Frameworks: Synthesis and ApplicationsCatalytic Processes in Materials ScienceLanthanide and Transition Metal Complexes
Selective Uptake of Ethane/Ethylene Mixtures by UTSA-280 is Driven by Reversibly Coordinated Water Defects | Litcius