Are Zr6-based MOFs water stable? Linker hydrolysis vs. capillary-force-driven channel collapse

Authors :: Michael J. Katz
Joseph E. Mondloch
Laura Gagliardi
Omar K. Farha
Joseph T. Hupp
Nora Planas
David Semrouni
Source :: Chemical Communications. 50:8944
Publication Year :: 2014
Publisher :: Royal Society of Chemistry (RSC), 2014.
Abstract: Metal–organic frameworks (MOFs) built up from Zr6-based nodes and multi-topic carboxylate linkers have attracted attention due to their favourable thermal and chemical stability. However, the hydrolytic stability of some of these Zr6-based MOFs has recently been questioned. Herein we demonstrate that two Zr6-based frameworks, namely UiO-67 and NU-1000, are stable towards linker hydrolysis in H2O, but collapse during activation from H2O. Importantly, this framework collapse can be overcome by utilizing solvent-exchange to solvents exhibiting lower capillary forces such as acetone.

Subjects :: Chemistry
Capillary action
Inorganic chemistry
Metals and Alloys
Collapse (topology)
General Chemistry
Catalysis
Surfaces, Coatings and Films
Electronic, Optical and Magnetic Materials
chemistry.chemical_compound
Hydrolysis
Chemical engineering
Materials Chemistry
Ceramics and Composites
Chemical stability
Thermal stability
Carboxylate
Linker

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