A partially interpenetrated metal-organic framework for selective hysteretic sorption of carbon dioxide

Yang, Sihai; Lin, Xiang; Lewis, William; Suyetin, Mikhail; Bichoutskaia, Elena; Parker, Julia E.; Tang, Chiu C.; Allan, David R.; Rizkallah, Pierre J.; Hubberstey, Peter; Champness, Neil R.; Mark Thomas, K.; Blake, Alexander J.; Schr�der, Martin

doi:10.1038/nmat3343

A partially interpenetrated metal-organic framework for selective hysteretic sorption of carbon dioxide

Yang, Sihai; Lin, Xiang; Lewis, William; Suyetin, Mikhail; Bichoutskaia, Elena; Parker, Julia E.; Tang, Chiu C.; Allan, David R.; Rizkallah, Pierre J.; Hubberstey, Peter; Champness, Neil R.; Mark Thomas, K.; Blake, Alexander J.; Schr�der, Martin

Authors

Sihai Yang

Xiang Lin

William Lewis

Mikhail Suyetin

Professor ELENA BESLEY ELENA.BESLEY@NOTTINGHAM.AC.UK
Professor of Theoretical Computational Chemistry

Julia E. Parker

Chiu C. Tang

David R. Allan

Pierre J. Rizkallah

Peter Hubberstey

Neil R. Champness

K. Mark Thomas

Alexander J. Blake

Martin Schr�der

Abstract

The selective capture of carbon dioxide in porous materials has potential for the storage and purification of fuel and flue gases. However, adsorption capacities under dynamic conditions are often insufficient for practical applications, and strategies to enhance CO2-host selectivity are required. The unique partially interpenetrated metal-organic framework NOTT-202 represents a new class of dynamic material that undergoes pronounced framework phase transition on desolvation. We report temperature-dependent adsorption/desorption hysteresis in desolvated NOTT-202a that responds selectively to CO2. The CO2 isotherm shows three steps in the adsorption profile at 195 K, and stepwise filling of pores generated within the observed partially interpenetrated structure has been modelled by grand canonical Monte Carlo simulations. Adsorption of N2, CH4, O2, Ar and H2 exhibits reversible isotherms without hysteresis under the same conditions, and this allows capture of gases at high pressure, but selectively leaves CO2 trapped in the nanopores at low pressure. © 2012 Macmillan Publishers Limited. All rights reserved.

Citation

Yang, S., Lin, X., Lewis, W., Suyetin, M., Bichoutskaia, E., Parker, J. E., …Schröder, M. (2012). A partially interpenetrated metal-organic framework for selective hysteretic sorption of carbon dioxide. Nature Materials, 11(8), 710-716. https://doi.org/10.1038/nmat3343

Journal Article Type	Article
Acceptance Date	Apr 25, 2012
Online Publication Date	Jun 3, 2012
Publication Date	2012-08
Deposit Date	Mar 26, 2020
Journal	Nature Materials
Print ISSN	1476-1122
Electronic ISSN	1476-4660
Publisher	Nature Publishing Group
Peer Reviewed	Peer Reviewed
Volume	11
Issue	8
Pages	710-716
DOI	https://doi.org/10.1038/nmat3343
Public URL	https://nottingham-repository.worktribe.com/output/3108752
Publisher URL	https://www.nature.com/articles/nmat3343

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