Author
Listed:
- Xiaolin Li
(University of Manchester
Harbin Institute of Technology)
- Juehua Wang
(University of Manchester)
- Nannan Bai
(University of Manchester)
- Xinran Zhang
(University of Manchester)
- Xue Han
(University of Manchester)
- Ivan Silva
(STFC Rutherford Appleton Laboratory)
- Christopher G. Morris
(University of Manchester)
- Shaojun Xu
(University of Manchester)
- Damian M. Wilary
(University of Manchester)
- Yinyong Sun
(Harbin Institute of Technology)
- Yongqiang Cheng
(Oak Ridge National Laboratory)
- Claire A. Murray
(Harwell Science Campus)
- Chiu C. Tang
(Harwell Science Campus)
- Mark D. Frogley
(Harwell Science Campus)
- Gianfelice Cinque
(Harwell Science Campus)
- Tristan Lowe
(University of Manchester)
- Haifei Zhang
(University of Liverpool)
- Anibal J. Ramirez-Cuesta
(Oak Ridge National Laboratory)
- K. Mark Thomas
(Newcastle University)
- Leslie W. Bolton
(BP Group Research)
- Sihai Yang
(University of Manchester)
- Martin Schröder
(University of Manchester)
Abstract
The demand for xylenes is projected to increase over the coming decades. The separation of xylene isomers, particularly p- and m-xylenes, is vital for the production of numerous polymers and materials. However, current state-of-the-art separation is based upon fractional crystallisation at 220 K which is highly energy intensive. Here, we report the discrimination of xylene isomers via refinement of the pore size in a series of porous metal–organic frameworks, MFM-300, at sub-angstrom precision leading to the optimal kinetic separation of all three xylene isomers at room temperature. The exceptional performance of MFM-300 for xylene separation is confirmed by dynamic ternary breakthrough experiments. In-depth structural and vibrational investigations using synchrotron X-ray diffraction and terahertz spectroscopy define the underlying host–guest interactions that give rise to the observed selectivity (p-xylene
Suggested Citation
Xiaolin Li & Juehua Wang & Nannan Bai & Xinran Zhang & Xue Han & Ivan Silva & Christopher G. Morris & Shaojun Xu & Damian M. Wilary & Yinyong Sun & Yongqiang Cheng & Claire A. Murray & Chiu C. Tang & , 2020.
"Refinement of pore size at sub-angstrom precision in robust metal–organic frameworks for separation of xylenes,"
Nature Communications, Nature, vol. 11(1), pages 1-10, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-17640-4
DOI: 10.1038/s41467-020-17640-4
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