Abstract
Shape-memory polymers and alloys are adaptable materials capable of reversing from a deformed, metastable phase to an energetically favored original phase in response to external stimuli. In the context of metal-organic frameworks, the term shape-memory is defined as the property of a switchable framework to stabilize the reopened pore phase after the first switching transition. Herein we describe a novel flexible terpyridine MOF which, upon desolvation, transforms into a nonporous structure that reopens into a shape-memory phase when exposed to CO2 at 195 K. Based on comprehensive in situ experimental studies (SC-XRD and PXRD) and DFT energetic considerations combined with literature reports, we recommend dividing shape-memory MOFs into two categories, viz responsive and nonresponsive, depending on the transformability of the gas-free reopened pore phase into the collapsed phase. Furthermore, considering the methodological gap in discovering and understanding shape-memory porous materials, we emphasize the importance of multicycle physisorption experiments for dynamic open framework materials, including metal-organic and covalent organic frameworks.
| Original language | English (US) |
|---|---|
| Pages (from-to) | 1256-1260 |
| Number of pages | 5 |
| Journal | ACS Materials Letters |
| Volume | 5 |
| Issue number | 4 |
| DOIs | |
| State | Published - Apr 3 2023 |
Funding
We gratefully acknowledge the support of the National Science Centre (NCN), Poland (Grants no. 2020/36/C/ST4/00534). F.F. was supported by the Polish National Agency for Academic Exchange (decision no. BPN/BEK/2021/1/00184/DEC/). G.M. thanks Iran Elites Federation. L.J.B. thanks the National Research Foundation of South Africa. S.K. thanks DFG (FOR2433) and European Research Council (grant agreement No. 742743). V.B. thanks BMBF Project No 05K22OD1.
ASJC Scopus subject areas
- General Chemical Engineering
- Biomedical Engineering
- General Materials Science
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CCDC 2218121: Experimental Crystal Structure Determination
Roztocki, K. (Contributor), Gromelska, W. (Contributor), Formalik, F. (Contributor), Giordana, A. (Contributor), Andreo, L. (Contributor), Mahmoudi, G. (Contributor), Bon, V. (Contributor), Kaskel, S. (Contributor), Barbour, L. J. (Contributor), Janiak, A. (Contributor) & Priola, E. (Contributor), Cambridge Crystallographic Data Centre, 2023
DOI: 10.5517/ccdc.csd.cc2dg49b, http://www.ccdc.cam.ac.uk/services/structure_request?id=doi:10.5517/ccdc.csd.cc2dg49b&sid=DataCite
Dataset
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CCDC 2218123: Experimental Crystal Structure Determination
Roztocki, K. (Contributor), Gromelska, W. (Contributor), Formalik, F. (Contributor), Giordana, A. (Contributor), Andreo, L. (Contributor), Mahmoudi, G. (Contributor), Bon, V. (Contributor), Kaskel, S. (Contributor), Barbour, L. J. (Contributor), Janiak, A. (Contributor) & Priola, E. (Contributor), Cambridge Crystallographic Data Centre, 2023
DOI: 10.5517/ccdc.csd.cc2dg4cd, http://www.ccdc.cam.ac.uk/services/structure_request?id=doi:10.5517/ccdc.csd.cc2dg4cd&sid=DataCite
Dataset
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CCDC 2218255: Experimental Crystal Structure Determination
Roztocki, K. (Contributor), Gromelska, W. (Contributor), Formalik, F. (Contributor), Giordana, A. (Contributor), Andreo, L. (Contributor), Mahmoudi, G. (Contributor), Bon, V. (Contributor), Kaskel, S. (Contributor), Barbour, L. J. (Contributor), Janiak, A. (Contributor) & Priola, E. (Contributor), Cambridge Crystallographic Data Centre, 2023
DOI: 10.5517/ccdc.csd.cc2dg8ms, http://www.ccdc.cam.ac.uk/services/structure_request?id=doi:10.5517/ccdc.csd.cc2dg8ms&sid=DataCite
Dataset