Near-ideal xylene selectivity in adaptive molecular pillar[n]arene crystals
Near-ideal xylene selectivity in adaptive molecular pillar[n]arene crystals
The energy-efficient separation of alkylaromatic compounds is a major industrial sustainability challenge. The use of selectively porous extended frameworks, such as zeolites or metal-organic frameworks, is one solution to this problem. Here, we studied a flexible molecular material, perethylated pillar[n]arene crystals (n = 5, 6), which can be used to separate C8 alkylaromatic compounds. Pillar[6]arene is shown to separate para-xylene from its structural isomers, meta-xylene and ortho-xylene, with 90% specificity in the solid state. Selectivity is an intrinsic property of the pillar[6]arene host, with the flexible pillar[6]arene cavities adapting during adsorption thus enabling preferential adsorption of para-xylene in the solid state. The flexibility of pillar[6]arene as a solid sorbent is rationalized using molecular conformer searches and crystal structure prediction (CSP) combined with comprehensive characterization by X-ray diffraction and 13C solid state NMR spectroscopy. The CSP study, which takes into account the structural variability of pillar[6]arene, breaks new ground in its own right and showcases the feasibility of applying CSP methods to understand and ultimately to predict the behaviour of soft, adaptive molecular crystals.
6921-6930
Jie, Kecheng
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Liu, Ming
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Zhou, Yujuan
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Little, Marc A.
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Pulido, Angeles
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Chong, Samantha Y.
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Stephenson, Andrew
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Hughes, Ashlea R.
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Sakakibara, Fumiyasu
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Ogoshi, Tomoki
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Blanc, Frederic
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Day, Graeme M.
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Huang, Feihe
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Cooper, Andrew I.
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6 June 2018
Jie, Kecheng
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Liu, Ming
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Zhou, Yujuan
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Little, Marc A.
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Pulido, Angeles
cdc804ed-2c64-4f41-85f9-b8fadc2940b6
Chong, Samantha Y.
2e23eea0-c8eb-48bb-8e69-7f3a50d0e812
Stephenson, Andrew
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Hughes, Ashlea R.
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Sakakibara, Fumiyasu
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Ogoshi, Tomoki
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Blanc, Frederic
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Day, Graeme M.
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Huang, Feihe
7493857d-ba9a-4fbe-82f4-3cce8ad4e1f3
Cooper, Andrew I.
252b0212-4ed1-47ae-a8ea-6e745a95d2f4
Jie, Kecheng, Liu, Ming, Zhou, Yujuan, Little, Marc A., Pulido, Angeles, Chong, Samantha Y., Stephenson, Andrew, Hughes, Ashlea R., Sakakibara, Fumiyasu, Ogoshi, Tomoki, Blanc, Frederic, Day, Graeme M., Huang, Feihe and Cooper, Andrew I.
(2018)
Near-ideal xylene selectivity in adaptive molecular pillar[n]arene crystals.
Journal of the American Chemical Society, 140 (22), .
(doi:10.1021/jacs.8b02621).
Abstract
The energy-efficient separation of alkylaromatic compounds is a major industrial sustainability challenge. The use of selectively porous extended frameworks, such as zeolites or metal-organic frameworks, is one solution to this problem. Here, we studied a flexible molecular material, perethylated pillar[n]arene crystals (n = 5, 6), which can be used to separate C8 alkylaromatic compounds. Pillar[6]arene is shown to separate para-xylene from its structural isomers, meta-xylene and ortho-xylene, with 90% specificity in the solid state. Selectivity is an intrinsic property of the pillar[6]arene host, with the flexible pillar[6]arene cavities adapting during adsorption thus enabling preferential adsorption of para-xylene in the solid state. The flexibility of pillar[6]arene as a solid sorbent is rationalized using molecular conformer searches and crystal structure prediction (CSP) combined with comprehensive characterization by X-ray diffraction and 13C solid state NMR spectroscopy. The CSP study, which takes into account the structural variability of pillar[6]arene, breaks new ground in its own right and showcases the feasibility of applying CSP methods to understand and ultimately to predict the behaviour of soft, adaptive molecular crystals.
Text
ja-2018-02621b_revised_manuscript
- Accepted Manuscript
More information
Accepted/In Press date: 12 May 2018
e-pub ahead of print date: 12 May 2018
Published date: 6 June 2018
Identifiers
Local EPrints ID: 420916
URI: http://eprints.soton.ac.uk/id/eprint/420916
ISSN: 0002-7863
PURE UUID: 60fa77ab-367e-418b-b825-7e20afc34053
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Date deposited: 18 May 2018 16:30
Last modified: 16 Mar 2024 06:37
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Contributors
Author:
Kecheng Jie
Author:
Ming Liu
Author:
Yujuan Zhou
Author:
Marc A. Little
Author:
Angeles Pulido
Author:
Samantha Y. Chong
Author:
Andrew Stephenson
Author:
Ashlea R. Hughes
Author:
Fumiyasu Sakakibara
Author:
Tomoki Ogoshi
Author:
Frederic Blanc
Author:
Feihe Huang
Author:
Andrew I. Cooper
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