Vapor-assisted synthesis of the MOF-74 metal-organic framework family from zinc, cobalt, and magnesium oxides

Vapor-assisted synthesis of the MOF-74 metal-organic framework family from zinc, cobalt, and magnesium oxides

In this work, we investigate the vapor-assisted synthesis of the metal-organic framework MOF-74 starting from three metal oxides (ZnO, CoO, and MgO). Depending on the nature of the added vapor (H2O, DMF, DMSO), the metal oxide, and the temperature, the outcome of the reaction can be directed towards...

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Veröffentlicht in:Dalton Transactions 2023-11, Vol.52 (47), p.17873-17880
Hauptverfasser: Wauteraerts, Nathalie, Tu, Min, CHANUT, Nicolas, Rodriguez-Hermida, Sabina, Gandara-Loe, Jesus, Ameloot, Rob
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container_end_page 17880
container_issue 47
container_start_page 17873
container_title Dalton Transactions
container_volume 52
creator Wauteraerts, Nathalie
Tu, Min
CHANUT, Nicolas
Rodriguez-Hermida, Sabina
Gandara-Loe, Jesus
Ameloot, Rob
description In this work, we investigate the vapor-assisted synthesis of the metal-organic framework MOF-74 starting from three metal oxides (ZnO, CoO, and MgO). Depending on the nature of the added vapor (H2O, DMF, DMSO), the metal oxide, and the temperature, the outcome of the reaction can be directed towards the desired porous phase. Ex situ and in situ XRD measurements reveal the formation of an intermediate phase during the reaction of MgO with H4dobdc, while the MOF-74 phase forms directly for ZnO and CoO. The reduced CO2 uptake of the resulting materials compared to solvothermally prepared MOFs might be offset by the convenience of the presented route and the promise of a high space time yield.
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title Vapor-assisted synthesis of the MOF-74 metal-organic framework family from zinc, cobalt, and magnesium oxides
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