Separating Xylene Isomers with a Calcium Metal-Organic Framework

Liang Yu; Jian Zhang; Saif Ullah; Jinze Yao; Haoyuan Luo; Jiajin Huang; Qibin Xia; Timo Thonhauser; Jing Li; Hao Wang

doi:10.1002/anie.202310672

Separating Xylene Isomers with a Calcium Metal-Organic Framework

Liang Yu, Jian Zhang, Saif Ullah, Jinze Yao, Haoyuan Luo, Jiajin Huang, Qibin Xia, Timo Thonhauser, Jing Li, Hao Wang

School of Arts and Sciences, Chemistry & Chemical Biology

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

30 Scopus citations

Abstract

The purification of p-xylene (pX) from its xylene isomers represents a challenging but important industrial process. Herein, we report the efficient separation of pX from its ortho- and meta- isomers by a microporous calcium-based metal–organic framework material (HIAM-203) with a flexible skeleton. At 30 °C, all three isomers are accommodated but the adsorption kinetics of o-xylene (oX) and m-xylene (mX) are substantially slower than that of pX, and at an elevated temperature of 120 °C, oX and mX are fully excluded while pX can be adsorbed. Multicomponent column breakthrough measurements and vapor-phase/liquid-phase adsorption experiments have demonstrated the capability of HIAM-203 for efficient separation of xylene isomers. Ab initio calculations have provided useful information for understanding the adsorption mechanism.

Original language	English (US)
Article number	e202310672
Journal	Angewandte Chemie - International Edition
Volume	62
Issue number	41
DOIs	https://doi.org/10.1002/anie.202310672
State	Published - Oct 9 2023

All Science Journal Classification (ASJC) codes

Catalysis
General Chemistry

Keywords

Adsorptive Separation
Metal-Organic Frameworks
Size-Exclusion
Xylene Isomers

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10.1002/anie.202310672

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title = "Separating Xylene Isomers with a Calcium Metal-Organic Framework",

abstract = "The purification of p-xylene (pX) from its xylene isomers represents a challenging but important industrial process. Herein, we report the efficient separation of pX from its ortho- and meta- isomers by a microporous calcium-based metal–organic framework material (HIAM-203) with a flexible skeleton. At 30 °C, all three isomers are accommodated but the adsorption kinetics of o-xylene (oX) and m-xylene (mX) are substantially slower than that of pX, and at an elevated temperature of 120 °C, oX and mX are fully excluded while pX can be adsorbed. Multicomponent column breakthrough measurements and vapor-phase/liquid-phase adsorption experiments have demonstrated the capability of HIAM-203 for efficient separation of xylene isomers. Ab initio calculations have provided useful information for understanding the adsorption mechanism.",

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AU - Yu, Liang

AU - Zhang, Jian

AU - Ullah, Saif

AU - Yao, Jinze

AU - Luo, Haoyuan

AU - Huang, Jiajin

AU - Xia, Qibin

AU - Thonhauser, Timo

AU - Li, Jing

AU - Wang, Hao

PY - 2023/10/9

Y1 - 2023/10/9

N2 - The purification of p-xylene (pX) from its xylene isomers represents a challenging but important industrial process. Herein, we report the efficient separation of pX from its ortho- and meta- isomers by a microporous calcium-based metal–organic framework material (HIAM-203) with a flexible skeleton. At 30 °C, all three isomers are accommodated but the adsorption kinetics of o-xylene (oX) and m-xylene (mX) are substantially slower than that of pX, and at an elevated temperature of 120 °C, oX and mX are fully excluded while pX can be adsorbed. Multicomponent column breakthrough measurements and vapor-phase/liquid-phase adsorption experiments have demonstrated the capability of HIAM-203 for efficient separation of xylene isomers. Ab initio calculations have provided useful information for understanding the adsorption mechanism.

AB - The purification of p-xylene (pX) from its xylene isomers represents a challenging but important industrial process. Herein, we report the efficient separation of pX from its ortho- and meta- isomers by a microporous calcium-based metal–organic framework material (HIAM-203) with a flexible skeleton. At 30 °C, all three isomers are accommodated but the adsorption kinetics of o-xylene (oX) and m-xylene (mX) are substantially slower than that of pX, and at an elevated temperature of 120 °C, oX and mX are fully excluded while pX can be adsorbed. Multicomponent column breakthrough measurements and vapor-phase/liquid-phase adsorption experiments have demonstrated the capability of HIAM-203 for efficient separation of xylene isomers. Ab initio calculations have provided useful information for understanding the adsorption mechanism.

KW - Adsorptive Separation

KW - Metal-Organic Frameworks

KW - Size-Exclusion

KW - Xylene Isomers

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Separating Xylene Isomers with a Calcium Metal-Organic Framework

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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