A robust heterometallic ultramicroporous MOF with ultrahigh selectivity for propyne/propylene separation

Yun Lei Peng; Ting Wang; Chaonan Jin; Pengfei Li; Shanelle Suepaul; Gary Beemer; Yao Chen; Rajamani Krishna; Peng Cheng; Tony Pham; Brian Space; Michael J. Zaworotko; Zhenjie Zhang

doi:10.1039/d0ta08498k

A robust heterometallic ultramicroporous MOF with ultrahigh selectivity for propyne/propylene separation

Yun Lei Peng, Ting Wang, Chaonan Jin, Pengfei Li, Shanelle Suepaul, Gary Beemer, Yao Chen, Rajamani Krishna, Peng Cheng, Tony Pham, Brian Space, Michael J. Zaworotko, Zhenjie Zhang

Department of Chemical Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

Highly efficient removal of trace propyne (C₃H₄) (propyne <1000 ppm) from propylene (C₃H₆) is an essential and challenging industrial process due to the high molecular similarity of C₃H₄and C₃H₆. Herein, we created a new ultramicroporous metal-organic framework (NKMOF-11) with exceptional water stability, superior C₃H₄binding affinity, and ultrahigh uptake capacity of C₃H₄at ultra-low pressure (0.1 mbar). Modelling studies revealed that the excellent performance of NKMOF-11 can be attributed to the suitable pore aperture and unique binding sites for C₃H₄through strong hydrogen bonding and π-π interactions. Attributed to the preferred adsorption of C₃H₄, NKMOF-11 possessed ultrahigh selectivities towards C₃H₄/C₃H₆mixtures (1/99 and 1/999 (v/v)) at room temperature. The simulation and experimental breakthrough results further revealed that NKMOF-11 possesses excellent separation performance towards C₃H₄and C₃H₆binary mixtures (1/99 and 1/999) and sets a new record for the productivity of polymer-grade C₃H₆(>99.996%) among all reported materials. This study paves a new avenue for the design of adsorbent materials with both high selectivity and high productivity for a C₃H₄/C₃H₆binary mixture.

Original language	English
Pages (from-to)	2850-2856
Number of pages	7
Journal	Journal of Materials Chemistry A
Volume	9
Issue number	5
DOIs	https://doi.org/10.1039/d0ta08498k
Publication status	Published - 7 Feb 2021

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title = "A robust heterometallic ultramicroporous MOF with ultrahigh selectivity for propyne/propylene separation",

abstract = "Highly efficient removal of trace propyne (C3H4) (propyne <1000 ppm) from propylene (C3H6) is an essential and challenging industrial process due to the high molecular similarity of C3H4and C3H6. Herein, we created a new ultramicroporous metal-organic framework (NKMOF-11) with exceptional water stability, superior C3H4binding affinity, and ultrahigh uptake capacity of C3H4at ultra-low pressure (0.1 mbar). Modelling studies revealed that the excellent performance of NKMOF-11 can be attributed to the suitable pore aperture and unique binding sites for C3H4through strong hydrogen bonding and π-π interactions. Attributed to the preferred adsorption of C3H4, NKMOF-11 possessed ultrahigh selectivities towards C3H4/C3H6mixtures (1/99 and 1/999 (v/v)) at room temperature. The simulation and experimental breakthrough results further revealed that NKMOF-11 possesses excellent separation performance towards C3H4and C3H6binary mixtures (1/99 and 1/999) and sets a new record for the productivity of polymer-grade C3H6(>99.996%) among all reported materials. This study paves a new avenue for the design of adsorbent materials with both high selectivity and high productivity for a C3H4/C3H6binary mixture.",

author = "Peng, {Yun Lei} and Ting Wang and Chaonan Jin and Pengfei Li and Shanelle Suepaul and Gary Beemer and Yao Chen and Rajamani Krishna and Peng Cheng and Tony Pham and Brian Space and Zaworotko, {Michael J.} and Zhenjie Zhang",

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year = "2021",

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doi = "10.1039/d0ta08498k",

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AU - Peng, Yun Lei

AU - Wang, Ting

AU - Jin, Chaonan

AU - Li, Pengfei

AU - Suepaul, Shanelle

AU - Beemer, Gary

AU - Chen, Yao

AU - Krishna, Rajamani

AU - Cheng, Peng

AU - Pham, Tony

AU - Space, Brian

AU - Zaworotko, Michael J.

AU - Zhang, Zhenjie

PY - 2021/2/7

Y1 - 2021/2/7

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AB - Highly efficient removal of trace propyne (C3H4) (propyne <1000 ppm) from propylene (C3H6) is an essential and challenging industrial process due to the high molecular similarity of C3H4and C3H6. Herein, we created a new ultramicroporous metal-organic framework (NKMOF-11) with exceptional water stability, superior C3H4binding affinity, and ultrahigh uptake capacity of C3H4at ultra-low pressure (0.1 mbar). Modelling studies revealed that the excellent performance of NKMOF-11 can be attributed to the suitable pore aperture and unique binding sites for C3H4through strong hydrogen bonding and π-π interactions. Attributed to the preferred adsorption of C3H4, NKMOF-11 possessed ultrahigh selectivities towards C3H4/C3H6mixtures (1/99 and 1/999 (v/v)) at room temperature. The simulation and experimental breakthrough results further revealed that NKMOF-11 possesses excellent separation performance towards C3H4and C3H6binary mixtures (1/99 and 1/999) and sets a new record for the productivity of polymer-grade C3H6(>99.996%) among all reported materials. This study paves a new avenue for the design of adsorbent materials with both high selectivity and high productivity for a C3H4/C3H6binary mixture.

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A robust heterometallic ultramicroporous MOF with ultrahigh selectivity for propyne/propylene separation

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