| Literature DB >> 30913363 |
Yu Wang1, Ning-Yu Huang1, Xue-Wen Zhang1, Hai He1, Rui-Kang Huang1, Zi-Ming Ye1, Yang Li2, Dong-Dong Zhou1, Pei-Qin Liao1, Xiao-Ming Chen1, Jie-Peng Zhang1.
Abstract
Efficient adsorptive separation of propylene/propane (C3 H6 /C3 H8 ) is highly desired and challenging. Known strategies focus on either the thermodynamic or the kinetic mechanism. Here, we report an interesting reactivity of a metal-organic framework that improves thermodynamic and kinetic adsorption selectivity simultaneously. When the metal-organic framework is heated under oxygen flow, half of the soft methylene bridges of the organic ligands are selectively oxidized to form the more polar and rigid carbonyl bridges. Mixture breakthrough experiments showed drastic increase of C3 H6 /C3 H8 selectivity from 1.5 to 15. For comparison, the C3 H6 /C3 H8 selectivities of the best-performing metal-organic frameworks Co-MOF-74 and KAUST-7 were experimentally determined to be 6.5 and 12, respectively. Gas adsorption isotherms/kinetics, single-crystal X-ray diffraction, and computational simulations revealed that the oxidation gives additional guest recognition sites, which improve thermodynamic selectivity, and reduces the framework flexibility, which generate kinetic selectivity.Entities:
Keywords: gas separation; kinetics; metal-organic frameworks; thermodynamics
Year: 2019 PMID: 30913363 DOI: 10.1002/anie.201902209
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336