Metal–organic frameworks as potential shock absorbers: The case of the highly flexible MIL-53(Al)

Pascal G. Yot; Zoubeyr Boudene; Jasmine Macia; Dominique Granier; Louis Vanduyfhuys; Toon Verstraelen; Veronique Van Speybroeck; Thomas Devic; Christian Serre; Gérard Férey; Norbert Stock; Guillaume Maurin

Journal ArticleOPEN ACCESS

Metal–organic frameworks as potential shock absorbers: The case of the highly flexible MIL-53(Al)

Chemical Communications (2014) 50(67) 9462-9464

DOI: 10.1039/c4cc03853c

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Abstract

The mechanical energy absorption ability of the highly flexible MIL-53(Al) MOF material was explored using a combination of experiments and molecular simulations. A pressure-induced transition between the large pore and the closed pore forms of this solid was revealed to be irreversible and associated with a relatively large energy absorption capacity. Both features make MIL-53(Al) the first potential MOF candidate for further use as a shock absorber. © The Partner Organisations 2014.

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Yot, P. G., Boudene, Z., Macia, J., Granier, D., Vanduyfhuys, L., Verstraelen, T., … Maurin, G. (2014). Metal–organic frameworks as potential shock absorbers: The case of the highly flexible MIL-53(Al). Chemical Communications, 50(67), 9462–9464. https://doi.org/10.1039/c4cc03853c

Metal–organic frameworks as potential shock absorbers: The case of the highly flexible MIL-53(Al)

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