Tuning porosity in macroscopic monolithic metal-organic frameworks for exceptional natural gas storage

While metal–organic frameworks exhibit record-breaking gas storage capacities, their typically powdered form hinders their industrial applicability. Here, the authors engineer UiO-66 into centimetre-sized monoliths with optimal pore-size distributions, achieving benchmark volumetric working capaciti...

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Autores principales: B. M. Connolly, M. Aragones-Anglada, J. Gandara-Loe, N. A. Danaf, D. C. Lamb, J. P. Mehta, D. Vulpe, S. Wuttke, J. Silvestre-Albero, P. Z. Moghadam, A. E. H. Wheatley, D. Fairen-Jimenez
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Lenguaje:EN
Publicado: Nature Portfolio 2019
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Acceso en línea:https://doaj.org/article/d26126a6d258435eaf2f8eb5d1c5f7e8
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spelling oai:doaj.org-article:d26126a6d258435eaf2f8eb5d1c5f7e82021-12-02T15:35:27ZTuning porosity in macroscopic monolithic metal-organic frameworks for exceptional natural gas storage10.1038/s41467-019-10185-12041-1723https://doaj.org/article/d26126a6d258435eaf2f8eb5d1c5f7e82019-05-01T00:00:00Zhttps://doi.org/10.1038/s41467-019-10185-1https://doaj.org/toc/2041-1723While metal–organic frameworks exhibit record-breaking gas storage capacities, their typically powdered form hinders their industrial applicability. Here, the authors engineer UiO-66 into centimetre-sized monoliths with optimal pore-size distributions, achieving benchmark volumetric working capacities for both CH4 and CO2.B. M. ConnollyM. Aragones-AngladaJ. Gandara-LoeN. A. DanafD. C. LambJ. P. MehtaD. VulpeS. WuttkeJ. Silvestre-AlberoP. Z. MoghadamA. E. H. WheatleyD. Fairen-JimenezNature PortfolioarticleScienceQENNature Communications, Vol 10, Iss 1, Pp 1-11 (2019)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
B. M. Connolly
M. Aragones-Anglada
J. Gandara-Loe
N. A. Danaf
D. C. Lamb
J. P. Mehta
D. Vulpe
S. Wuttke
J. Silvestre-Albero
P. Z. Moghadam
A. E. H. Wheatley
D. Fairen-Jimenez
Tuning porosity in macroscopic monolithic metal-organic frameworks for exceptional natural gas storage
description While metal–organic frameworks exhibit record-breaking gas storage capacities, their typically powdered form hinders their industrial applicability. Here, the authors engineer UiO-66 into centimetre-sized monoliths with optimal pore-size distributions, achieving benchmark volumetric working capacities for both CH4 and CO2.
format article
author B. M. Connolly
M. Aragones-Anglada
J. Gandara-Loe
N. A. Danaf
D. C. Lamb
J. P. Mehta
D. Vulpe
S. Wuttke
J. Silvestre-Albero
P. Z. Moghadam
A. E. H. Wheatley
D. Fairen-Jimenez
author_facet B. M. Connolly
M. Aragones-Anglada
J. Gandara-Loe
N. A. Danaf
D. C. Lamb
J. P. Mehta
D. Vulpe
S. Wuttke
J. Silvestre-Albero
P. Z. Moghadam
A. E. H. Wheatley
D. Fairen-Jimenez
author_sort B. M. Connolly
title Tuning porosity in macroscopic monolithic metal-organic frameworks for exceptional natural gas storage
title_short Tuning porosity in macroscopic monolithic metal-organic frameworks for exceptional natural gas storage
title_full Tuning porosity in macroscopic monolithic metal-organic frameworks for exceptional natural gas storage
title_fullStr Tuning porosity in macroscopic monolithic metal-organic frameworks for exceptional natural gas storage
title_full_unstemmed Tuning porosity in macroscopic monolithic metal-organic frameworks for exceptional natural gas storage
title_sort tuning porosity in macroscopic monolithic metal-organic frameworks for exceptional natural gas storage
publisher Nature Portfolio
publishDate 2019
url https://doaj.org/article/d26126a6d258435eaf2f8eb5d1c5f7e8
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