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How Reproducible is the Synthesis of Zr–Porphyrin Metal–Organic Frameworks? An Interlaboratory Study

Boström, Hanna L. B.; Emmerling, Sebastian; Heck, Fabian; Koschnick, Charlotte; Jones, Andrew J.; Cliffe, Matthew J.; Al Natour, Rawan; Bonneau, Mickaële; Guillerm, Vincent; Shekhah, Osama; Eddaoudi, Mohamed; Lopez‐Cabrelles, Javier; Furukawa, Shuhei; Romero‐Angel, María; Martí‐Gastaldo, Carlos; Yan, Minliang; Morris, Amanda J.; Romero‐Muñiz, Ignacio; Xiong, Ying; Platero‐Prats, Ana E.; Roth, Jocelyn; Queen, Wendy L.; Mertin, Kalle S.; Schier, Danielle E.; Champness, Neil R.; Yeung, Hamish H.‐M.; Lotsch, Bettina V.

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Authors

Hanna L. B. Boström

Sebastian Emmerling

Fabian Heck

Charlotte Koschnick

Andrew J. Jones

Rawan Al Natour

Mickaële Bonneau

Vincent Guillerm

Osama Shekhah

Mohamed Eddaoudi

Javier Lopez‐Cabrelles

Shuhei Furukawa

María Romero‐Angel

Carlos Martí‐Gastaldo

Minliang Yan

Amanda J. Morris

Ignacio Romero‐Muñiz

Ying Xiong

Ana E. Platero‐Prats

Jocelyn Roth

Wendy L. Queen

Kalle S. Mertin

Danielle E. Schier

Neil R. Champness

Hamish H.‐M. Yeung

Bettina V. Lotsch



Abstract

Metal–organic frameworks (MOFs) are a rapidly growing class of materials that offer great promise in various applications. However, the synthesis remains challenging: for example, a range of crystal structures can often be accessed from the same building blocks, which complicates the phase selectivity. Likewise, the high sensitivity to slight changes in synthesis conditions may cause reproducibility issues. This is crucial, as it hampers the research and commercialization of affected MOFs. Here, it presents the first‐ever interlaboratory study of the synthetic reproducibility of two Zr–porphyrin MOFs, PCN‐222 and PCN‐224, to investigate the scope of this problem. For PCN‐222, only one sample out of ten was phase pure and of the correct symmetry, while for PCN‐224, three are phase pure, although none of these show the spatial linker order characteristic of PCN‐224. Instead, these samples resemble dPCN‐224 (disordered PCN‐224), which has recently been reported. The variability in thermal behavior, defect content, and surface area of the synthesised samples are also studied. The results have important ramifications for field of metal–organic frameworks and their crystallization, by highlighting the synthetic challenges associated with a multi‐variable synthesis space and flat energy landscapes characteristic of MOFs.

Citation

Boström, H. L. B., Emmerling, S., Heck, F., Koschnick, C., Jones, A. J., Cliffe, M. J., Al Natour, R., Bonneau, M., Guillerm, V., Shekhah, O., Eddaoudi, M., Lopez‐Cabrelles, J., Furukawa, S., Romero‐Angel, M., Martí‐Gastaldo, C., Yan, M., Morris, A. J., Romero‐Muñiz, I., Xiong, Y., Platero‐Prats, A. E., …Lotsch, B. V. (2024). How Reproducible is the Synthesis of Zr–Porphyrin Metal–Organic Frameworks? An Interlaboratory Study. Advanced Materials, Article 2304832. https://doi.org/10.1002/adma.202304832

Journal Article Type Article
Acceptance Date Sep 5, 2023
Online Publication Date Jan 21, 2024
Publication Date Jan 21, 2024
Deposit Date Mar 5, 2024
Publicly Available Date Mar 6, 2024
Journal Advanced Materials
Print ISSN 0935-9648
Electronic ISSN 1521-4095
Publisher Wiley
Peer Reviewed Peer Reviewed
Article Number 2304832
DOI https://doi.org/10.1002/adma.202304832
Keywords metal–organic frameworks, reproducibility, synthesis
Public URL https://nottingham-repository.worktribe.com/output/30411437
Publisher URL https://onlinelibrary.wiley.com/doi/10.1002/adma.202304832
Additional Information Received: 2023-05-22; Published: 2024-01-21

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