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A Robust Metal‐Organic Framework with Scalable Synthesis and Optimal Adsorption and Desorption for Energy‐Efficient Ethylene Purification

Cong Yu, Zhengdong Guo, Lifeng Yang, Jiyu Cui, Sen Chen, Yawen Bo, Xian Suo, Qihan Gong, Shang Zhang, Xili Cui, Shengbao He, Huabin Xing

2023Angewandte Chemie International Edition72 citationsDOI

Abstract

Abstract Adsorptive separation is an energy‐efficient alternative, but its advancement has been hindered by the challenge of industrially potential adsorbents development. Herein, a novel ultra‐microporous metal‐organic framework ZU‐901 is designed that satisfies the basic criteria raised by ethylene/ethane (C 2 H 4 /C 2 H 6 ) pressure swing adsorption (PSA). ZU‐901 exhibits an “S” shaped C 2 H 4 curve with high sorbent selection parameter (65) and could be mildly regenerated. Through green aqueous‐phase synthesis, ZU‐901 is easily scalable with 99 % yield, and it is stable in water, acid, basic solutions and cycling breakthrough experiments. Polymer‐grade C 2 H 4 (99.51 %) could be obtained via a simulating two‐bed PSA process, and the corresponding energy consumption is only 1/10 of that of simulating cryogenic distillation. Our work has demonstrated the great potential of pore engineering in designing porous materials with desired adsorption and desorption behavior to implement an efficient PSA process.

Topics & Concepts

Pressure swing adsorptionAdsorptionDesorptionMaterials scienceChemical engineeringMicroporous materialSorbentEthyleneYield (engineering)PolymerProcess engineeringChromatographyChemistryOrganic chemistryCatalysisComposite materialEngineeringMetal-Organic Frameworks: Synthesis and ApplicationsCovalent Organic Framework ApplicationsCarbon Dioxide Capture Technologies
A Robust Metal‐Organic Framework with Scalable Synthesis and Optimal Adsorption and Desorption for Energy‐Efficient Ethylene Purification | Litcius