Issue 36, 2024

Electron beam and thermal stabilities of MFM-300(M) metal–organic frameworks

Abstract

This work reports the thermal and electron beam stabilities of a series of isostructural metal–organic frameworks (MOFs) of type MFM-300(M) (M = Al, Ga, In, Cr). MFM-300(Cr) was most stable under the electron beam, having an unusually high critical electron fluence of 1111 e Å−2 while the Group 13 element MOFs were found to be less stable. Within Group 13, MFM-300(Al) had the highest critical electron fluence of 330 e Å−2, compared to 189 e Å−2 and 147 e Å−2 for the Ga and In MOFs, respectively. For all four MOFs, electron beam-induced structural degradation was independent of crystal size and was highly anisotropic, although both the length and width of the channels decreased during electron beam irradiation. Notably, MFM-300(Cr) was found to retain crystallinity while shrinking up to 10%. Thermal stability was studied using in situ synchrotron X-ray diffraction at elevated temperature, which revealed critical temperatures for crystal degradation to be 605, 570, 490 and 480 °C for Al, Cr, Ga, and In, respectively. The pore channel diameters contracted by ≈0.5% on desorption of solvent species, but thermal degradation at higher temperatures was isotropic. The observed electron stabilities were found to scale with the relative inertness of the cations and correlate well to the measured lifetime of the materials when used as photocatalysts.

Graphical abstract: Electron beam and thermal stabilities of MFM-300(M) metal–organic frameworks

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Article information

Article type
Paper
Submitted
12 май 2024
Accepted
30 июн 2024
First published
01 июл 2024
This article is Open Access
Creative Commons BY license

J. Mater. Chem. A, 2024,12, 24165-24174

Electron beam and thermal stabilities of MFM-300(M) metal–organic frameworks

E. Tien, G. Cao, Y. Chen, N. Clark, E. Tillotson, D. Ngo, J. H. Carter, S. P. Thompson, C. C. Tang, C. S. Allen, S. Yang, M. Schröder and S. J. Haigh, J. Mater. Chem. A, 2024, 12, 24165 DOI: 10.1039/D4TA03302G

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