Robust Microporous Metal–Organic Frameworks for Highly Efficient and Simultaneous Removal of Propyne and Propadiene from Propylene

Robust Microporous Metal–Organic Frameworks for Highly Efficient and Simultaneous Removal of Propyne and Propadiene from Propylene

Simultaneous removal of trace amounts of propyne and propadiene from propylene is an important but challenging industrial process. We report herein a class of microporous metal–organic frameworks (NKMOF‐1‐M) with exceptional water stability and remarkably high uptakes for both propyne and propadiene...

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Veröffentlicht in:Angewandte Chemie International Edition 2019-07, Vol.58 (30), p.10209-10214
Hauptverfasser: Peng, Yun‐Lei, He, Chaohui, Pham, Tony, Wang, Ting, Li, Pengfei, Krishna, Rajamani, Forrest, Katherine A., Hogan, Adam, Suepaul, Shanelle, Space, Brian, Fang, Ming, Chen, Yao, Zaworotko, Michael J., Li, Jinping, Li, Libo, Zhang, Zhenjie, Cheng, Peng, Chen, Banglin
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Sprache:eng
Schlagworte:
Affinity
Ambient temperature
Binding sites
Crystal structure
gas separation
Metal-organic frameworks
Metals
Molecular structure
physisorption
Propylene
propylene purification
Selectivity
Water stability
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container_end_page 10214
container_issue 30
container_start_page 10209
container_title Angewandte Chemie International Edition
container_volume 58
creator Peng, Yun‐Lei
He, Chaohui
Pham, Tony
Wang, Ting
Li, Pengfei
Krishna, Rajamani
Forrest, Katherine A.
Hogan, Adam
Suepaul, Shanelle
Space, Brian
Fang, Ming
Chen, Yao
Zaworotko, Michael J.
Li, Jinping
Li, Libo
Zhang, Zhenjie
Cheng, Peng
Chen, Banglin
description Simultaneous removal of trace amounts of propyne and propadiene from propylene is an important but challenging industrial process. We report herein a class of microporous metal–organic frameworks (NKMOF‐1‐M) with exceptional water stability and remarkably high uptakes for both propyne and propadiene at low pressures. NKMOF‐1‐M separated a ternary propyne/propadiene/propylene (0.5 : 0.5 : 99.0) mixture with the highest reported selectivity for the production of polymer‐grade propylene (99.996 %) at ambient temperature, as attributed to its strong binding affinity for propyne and propadiene over propylene. Moreover, we were able to visualize propyne and propadiene molecules in the single‐crystal structure of NKMOF‐1‐M through a convenient approach under ambient conditions, which helped to precisely understand the binding sites and affinity for propyne and propadiene. These results provide important guidance on using ultramicroporous MOFs as physisorbent materials. Blatant favoritism: A class of microporous water‐stable MOFs enabled the simultaneous removal of trace amounts of propyne and propadiene from propylene (see picture) to produce polymer‐grade propylene with high selectivity (99.996 %) at ambient temperature. A method for the visualization of propyne and propadiene molecules in the single‐crystal structure of the MOF helped to explain the strong binding affinity for propyne and propadiene over propylene.
doi_str_mv 10.1002/anie.201904312
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We report herein a class of microporous metal–organic frameworks (NKMOF‐1‐M) with exceptional water stability and remarkably high uptakes for both propyne and propadiene at low pressures. NKMOF‐1‐M separated a ternary propyne/propadiene/propylene (0.5 : 0.5 : 99.0) mixture with the highest reported selectivity for the production of polymer‐grade propylene (99.996 %) at ambient temperature, as attributed to its strong binding affinity for propyne and propadiene over propylene. Moreover, we were able to visualize propyne and propadiene molecules in the single‐crystal structure of NKMOF‐1‐M through a convenient approach under ambient conditions, which helped to precisely understand the binding sites and affinity for propyne and propadiene. These results provide important guidance on using ultramicroporous MOFs as physisorbent materials. 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source Wiley Online Library Journals Frontfile Complete
subjects Affinity
Ambient temperature
Binding sites
Crystal structure
gas separation
Metal-organic frameworks
Metals
Molecular structure
physisorption
Propylene
propylene purification
Selectivity
Water stability
title Robust Microporous Metal–Organic Frameworks for Highly Efficient and Simultaneous Removal of Propyne and Propadiene from Propylene
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